JP2008067102A - Content distribution server - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a content distribution server for enabling a client, even when what content or decoding capability, or buffer the client has, to reproduce the content without delay while keeping security of the content. <P>SOLUTION: The content distribution server includes: receiving means 21 for receiving a content request message containing information of a decoding processing capability of the client for encrypted content and information of a buffer size; content storage means 25 for storing content data and information of a distribution bit rate; content sorting means 22 for dividing the content data, based on the information of the buffer size, calculating an encryption rate, based on the information of the decoding processing capability and the information of the distribution bit rate, and sorting each partial data to an encrypted part and a non-encrypted part in response to the encryption rate; partial encrypting means 23 for encrypting the encrypted part; and transmission means 24 for transmitting to the client content data of both of the encrypted part and the non-encrypted part. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a content distribution server that encrypts and transmits content in response to a content request from a client.

  A home AV network system (hereinafter also referred to as a content distribution system) is configured to transmit and receive video and audio data between client and server devices using a wireless and wired network. In the content distribution system, the content data is encrypted as necessary so that the content data is not taken away by an external third party during the distribution of the content, so that the security is maintained. However, when the decryption capability of the client is low, a heavy load is applied to the decryption process, which may hinder content reproduction.

Therefore, in the distribution of content, a method for reducing the load of decryption processing in the client while maintaining security by performing partial encryption is described in Patent Document 1 below. The technique described in Patent Document 1 reduces the load of encryption and decryption processing by encrypting only the I frame of MPEG2 data.
JP 2003-69556 A (paragraph 0012)

  However, in general, a client that receives video and audio data uses a buffer as a temporary storage destination of data in order to absorb fluctuations in network communication speed.

  For example, if a client has a 1 Mbit buffer and processes encrypted content of 10 Mbps (10 Megabit / sec), the buffer overflows unless decryption processing is completed within 0.1 seconds, and playback is delayed. Will occur. Therefore, if the decryption processing capability of the client is as low as 2 Mbps, in order to finish the decryption process within 0.1 seconds, the encrypted data stored in the buffer is 0.2 Mbit or less, that is, the content is encrypted. It must be partly encrypted so that the percentage is less than 20%.

  In addition, when the network communication is unstable, the data stored in the buffer may decrease. Then, it is necessary to consider the content encryption ratio within the reduced data range. Therefore, the number of times that the encryption ratio is considered increases, and the possibility that the encryption ratio exceeds 20% increases. On the other hand, by adding a new buffer in consideration of the content decoding process, it is possible to reduce the influence of increase / decrease in the buffer caused by unstable network communication. However, the present invention does not consider the handling of a newly prepared buffer as another problem for situations where network communication is unstable. Hereinafter, the “buffer” refers to a buffer prepared in consideration of content decoding processing.

  As described above, considering that the encryption rate must be a predetermined value or less depending on the decryption capability of the client, the partial encryption according to the conventional technology considers the decryption capability and buffer size suitable for the client. Therefore, even if only the I frame is partially encrypted, an overflow of the client buffer (also simply referred to as a buffer) may occur. In particular, in moving image content with little image movement, the data size of the I frame is larger than other frames, and the I frame occupies most of the client buffer, or the actual partial encryption ratio exceeds the decryption capability of the client. There is a risk of end.

  The present invention is for solving the above-mentioned problems, and content distribution that enables any content or client having any decoding capability or buffer to reproduce content without delay while maintaining content security. The purpose is to provide a server. That is, according to the present invention, even a client with low decoding capability can perform smooth reproduction regardless of the content.

  In order to achieve the above object, according to the present invention, there is provided a content distribution server that encrypts the content in response to a request for desired content from a client and transmits the encrypted content to the client. Receiving means for receiving from the client a content request message requesting transmission of the content including information on decryption processing capacity and information on the buffer size of the client; data of the content to be transmitted to the client; and Content storage means for storing information of a delivery bit rate, and based on the received buffer size information of the client, the content data stored in the content storage means is divided into a plurality of partial data; The client received Encryption indicating a ratio of encryption performed on the partial data after division based on information on the decryption capability of the content of the content and information on a delivery bit rate of the content stored in the content storage unit A content distribution unit that calculates a rate and distributes the partial data to an encrypted part that is encrypted according to the calculated encryption rate and a non-encrypted part that is not encrypted, and distribution by the content distribution unit A partial encryption unit that encrypts the content data of the encrypted part, and the non-encrypted part distributed by the content distribution unit and the content data encrypted by the partial encryption unit A content distribution server comprising transmission means for transmitting the content data to the client together There is provided. With this configuration, any content or a client having any decoding capability or buffer can reproduce the content without delay while maintaining the security of the content.

  The content distribution server of the present invention has the above-described configuration, and enables any content or any client having any decoding capability or buffer to reproduce the content without delay while maintaining the security of the content.

<First Embodiment>
The content distribution server according to the first embodiment of the present invention will be described below with reference to FIGS. FIG. 1 is a configuration diagram showing an example of a content distribution system including a content distribution server according to the first embodiment of the present invention. FIG. 2 is a diagram for explaining the division and encryption of content data in the first embodiment of the present invention. FIG. 3 is a diagram for explaining partially encrypted data in which a packet header is added to the head of partially encrypted data according to the first embodiment of the present invention.

  As shown in FIG. 1, the content distribution system 1 includes a client device (corresponding to the client described above) 10 and a content distribution server 20. Basically, the client device 10 makes a content distribution request to the content distribution server 20 having the content, and the content distribution server 20 encrypts the content and transmits it to the client device 10 in response to this distribution request.

  Here, the configuration of the client device 10 will be described. As shown in FIG. 1, the client device 10 includes a playback function unit 11, a decryption function unit 12, a content request transmission function unit 13, a buffer 14, and a data reception function unit 15. The content request transmission function unit 13 corresponds to the information on the buffer size of the buffer 14 of the client device 10 itself and the information on the decryption processing speed of the decryption function unit 12 (corresponding to the above-described information on the decryption processing capability of the encrypted content. A signal (hereinafter, also referred to as a content request (corresponding to the above-described content request message)) for requesting a content including a capability including 2 Mbps is transmitted to the content distribution server 20.

  The data reception function unit 15 receives content data distributed from the content distribution server 20 and stores it in the buffer 14. The decryption function unit 12 decrypts the encrypted portion of the content data when the content data stored in the buffer 14 is accumulated to some extent. The playback function unit 11 plays back the content data decrypted by the decryption function unit 12.

  Next, the configuration of the content distribution server 20 will be described. As shown in FIG. 1, the content distribution server 20 includes a content request reception function unit 21, a content distribution function unit 22, a partial encryption function unit 23, a data transmission function unit 24, and a content unit 25. A content request receiving function unit (corresponding to a receiving unit) 21 sends a content request message for requesting transmission of content including information on the decryption processing capability of the encrypted content of the client device 10 and information on the buffer size of the client device 10. In other words, the content request transmitted from the client device 10 is received, the content request is transmitted to the content unit 25, the buffer size information of the client device 10 and the decoding process Information on speed is transmitted to the content distribution function unit 22.

  The content part (corresponding to the content storage means) 25 stores content data to be transmitted to the client device 10 and information on the content distribution bit rate, that is, has content data to be transmitted to the client device 10. In response to receiving a request for content from the content request receiving function unit 21, the content distribution function unit 22 transmits information on content data and the bit rate (also referred to as distribution bit rate) of the corresponding content. It is.

  The content distribution function unit (corresponding to the content distribution unit) 22 generates a plurality of pieces of content data stored in the content unit 25 based on the received buffer size information of the client device 10 as shown in FIG. Are divided into partial data and received based on the received information on the decryption capability of the content of the client device 10 and the information on the distribution bit rate of the content stored in the content unit 25. The encryption rate indicating the rate of encryption performed on the content data in the partial data) is calculated, and the encrypted portion encrypted according to the calculated encryption rate and the unencrypted portion not encrypted are calculated. Each partial data (divided content data) is distributed. That is, the content distribution function unit 22 receives the information about the buffer size and the decoding processing speed of the client device 10 received from the content request reception function unit 21, the content data received from the content unit 25, and the bits of the corresponding content data Based on the rate information, the following processing is performed.

  First, the content distribution function unit 22 divides content data received from the content unit 25 into data (partial data) smaller than the buffer size of the client device 10. Then, the content distribution function unit 22 calculates a ratio (also referred to as an encryption rate) for encrypting the partial data based on the decryption processing speed of the client and the information on the bit rate of the content. Then, the content distribution function unit 22 transmits partial data at a ratio corresponding to the calculated encryption rate to the partial encryption function unit 23 and transmits the remaining partial data to the data transmission function unit 24.

  The partial encryption function unit (corresponding to partial encryption means) 23 encrypts the content data of the encrypted part distributed by the content distribution function unit 22, that is, from the content distribution function unit 22 The received data (part of the partial data) is encrypted and transmitted to the data transmission function unit 24. The data transmission function unit (corresponding to a transmission means) 24 combines the content data encrypted by the partial encryption function unit 23 and the content data of the non-encrypted part distributed by the content distribution function unit 22. Are transmitted to the client device 10, that is, the encrypted data received from the partial encryption function unit 23 and the data received from the content distribution function unit 22 are combined and transmitted to the client device 10. Is.

  Here, the division of the content data and the encryption of the divided partial data will be described with reference to FIG. Here, as shown in FIG. 2, the size of the buffer 14 used by the client device 10 for temporary storage of content data is N bits, the decoding processing speed of the client device 10 is j bps, and the content data to be distributed The bit rate is k bps.

  In operation 1, as described above, the content distribution function unit 22 divides the content data into partial data so as not to exceed the buffer size N bits of the buffer 14 of the client device 10. Next, in operation 2, the partial encryption function unit 23 performs the encryption rate j / k or less calculated by the content distribution function unit 22 for each partial data divided by the content distribution function unit 22. The data transmission function unit 24 generates partially encrypted partial data (partially encrypted data). In this way, by configuring the partial data into an encrypted part and a non-encrypted part at a predetermined encryption rate, any content or client having any decryption ability or buffer can maintain the security of the content. The content can be played back without delay.

  Next, the partially encrypted data in which a packet header is added to the head of the above partially encrypted data will be described with reference to FIG. As shown in FIG. 3, the partially encrypted data composed of the unencrypted portion and the encrypted portion may be combined into one set and a packet header may be added to the head thereof. This packet header includes the length of the packet header itself (for example, x bytes), the data size of the unencrypted part (data length: for example, y bytes), and the data size of the encrypted part (data length: for example, z bytes). include. By adding this packet header, when the client device 10 receives this set of partially encrypted data, it is possible to identify the location where the content data is encrypted by referring to the packet header.

  As described above, the partial data less than or equal to the buffer size of the client device is partially encrypted so as not to exceed the decryption processing speed of the client device in consideration of the bit rate of the content. This makes it possible to distribute content data stably regardless of the ability.

<Second Embodiment>
A second embodiment will be described with reference to FIG. As shown in FIG. 4, the configuration of the content distribution system 4 does not change, but the configurations of the client device 40 and the content distribution server 50 are different from those of the first embodiment. Content distribution in the second embodiment will be described. First, the client device 40 transmits to the content distribution server 50 a signal (hereinafter also referred to as a bit rate request) requesting information on the bit rate of the content that the content distribution server 50 has. The content distribution server 50 that has received the bit rate request transmits information on the bit rate of the content it has to the client device 40. The client device 40 that has received the information on the bit rate of the content, based on the received bit rate information and the buffer size of its own buffer 44, has the same encryption rate as that of the content distribution server 20 of the first embodiment. Is calculated.

  The client device 40 transmits the calculated encryption rate information and its own buffer size to the content distribution server 50, and the content distribution server 50 that has received the encryption rate and the buffer size of the client device 40 performs the first embodiment. Similar to the content distribution server 20 of the form, the content data is divided into partial data, and content data divided into an encrypted portion and an unencrypted portion based on the received encryption rate is configured and configured The content data is transmitted to the client device 40. As a result, as in the first embodiment, any content or client having any decoding capability or buffer can reproduce the content without delay while maintaining the security of the content.

  Here, the configuration of the client device 40 will be described. As shown in FIG. 4, the client device 40 includes a playback function unit 41, a decryption function unit 42, a content request transmission function unit 43, a buffer 44, a data reception function unit 45, and an encryption rate calculation function unit 46. . Here, the difference from the configuration of the client device 10 of the first embodiment is that an encryption rate calculation function unit 46 is added.

  As described above, the content request transmission function unit 43 transmits a bit rate request in order to acquire information on the bit rate of the content that the content distribution server 50 has. As will be described later, the encryption rate information calculated by the encryption rate calculation function unit 46 and the buffer size of the buffer 44 are also transmitted to the content distribution server 50. The data reception function unit 45 receives content bit rate information from the content distribution server 50 and receives content data.

  The encryption rate calculation function unit 46 calculates the encryption rate based on the bit rate information of the content received via the data reception function unit 45 and the buffer size of the buffer 44 of the client device 40. . Note that the playback function unit 41, the decoding function unit 42, and the buffer 44 have the same functions as the corresponding components in the first embodiment, and thus description thereof is omitted.

  Next, the configuration of the content distribution server 50 will be described. As shown in FIG. 4, the content distribution server 50 includes a content request reception function unit 51, a content distribution function unit 52, a partial encryption function unit 53, a data transmission function unit 54, and a content unit 55. The content request reception function unit 51 receives the bit rate request transmitted from the content request transmission function unit 43 of the client device 40, the encryption rate, and the buffer size of the buffer 44 of the client device 40, and sends them to the content unit 55. To be sent.

  When the content unit 55 receives a bit rate request from the content request reception function unit 51, the content unit 55 transmits information on the bit rate of the corresponding content to the data transmission function unit 54, and the content request reception function unit 51 transmits the encryption rate. When the buffer size of the buffer 44 of the client device 40 is received, the received encryption rate, the buffer size of the buffer 44 of the client device 40, and the corresponding content data are transmitted to the content distribution function unit 52. .

  The content distribution function unit 52 divides content data based on the encryption rate received from the content unit 55, the buffer size of the buffer 44 of the client device 40, and the content data, and among the divided data (partial data) Data corresponding to the encryption rate is transmitted to the partial encryption function unit 53, and the remaining data is transmitted to the data transmission function unit 54. The partial encryption function unit 53 encrypts data received from the content distribution function unit 52 and transmits the data to the data transmission function unit 54. The data transmission function unit 54 combines the bit rate information of the content received from the content unit 55, the data received from the content distribution function unit 52 and the encrypted data received from the partial encryption function unit 53. The content data is transmitted to the client device 40.

  Note that the dividing method, the encrypting method, and the addition of the packet header to the head of the partially encrypted data are the same as in the first embodiment, and thus the description thereof is omitted.

  The content distribution server according to the present invention is capable of responding to a content request from a client so that any content or a client having any decoding capability or buffer can reproduce content without delay while maintaining the security of the content. Accordingly, it is useful for a content distribution server that encrypts and transmits content.

It is a lineblock diagram showing an example of a contents distribution system containing a contents distribution server concerning a 1st embodiment of the present invention. It is a figure for demonstrating the division | segmentation and encryption of content data in the 1st Embodiment of this invention. It is a figure for demonstrating the partial encryption data which added the packet header to the head of the partial encryption data in the 1st Embodiment of this invention. It is a block diagram which shows an example of the content delivery system containing the content delivery server which concerns on the 2nd Embodiment of this invention.

Explanation of symbols

1, 4 Content distribution system 10, 40 Client device 11, 41 Playback function unit 12, 42 Decoding function unit 13, 43 Content request transmission function unit 14, 44 Buffer 15, 45 Data reception function unit 20, 50 Content distribution server 21, 51 Content Request Reception Function Unit (Reception Unit)
22, 52 Content distribution function unit (content distribution means)
23, 53 Partial encryption function part (partial encryption means)
24, 54 Data transmission function unit (transmission means)
25, 55 Content section (content storage means)
46 Encryption rate calculation function

Claims (1)

A content distribution server that encrypts the content in response to a request for desired content from a client and transmits the encrypted content to the client,
Receiving means for receiving, from the client, a content request message for requesting transmission of the content including information on the decryption processing capability of the client's encrypted content and information on the buffer size of the client;
Content storage means for storing data of the content to be transmitted to the client and information on the distribution bit rate of the content;
Based on the received information on the buffer size of the client, the content data stored in the content storage means is divided into a plurality of partial data, and the content decoding processing capability of the received client is determined. Based on the information and the distribution bit rate information of the content stored in the content storage means, an encryption rate indicating a ratio of encryption performed on the divided partial data is calculated, and the calculated Content distribution means for allocating each partial data to an encrypted part to be encrypted and an unencrypted part not to be encrypted according to an encryption rate;
Partial encryption means for encrypting the data of the content of the encrypted portion distributed by the content distribution means;
Transmitting means for transmitting the content data encrypted by the partial encryption means and the content data of the non-encrypted part distributed by the content distribution means to the client,
A content distribution server provided.

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