JP4190571B2 - Content data recording device - Google Patents

Description

  The present invention relates to a content data recording apparatus when each of a plurality of content data is recorded as an individual file.

Conventionally, UDF (Universal Disk Format) is a format for recording content data such as audio data on a removable recording medium such as CD-R or DVD (hereinafter abbreviated as “removable recording medium” as appropriate). ) Is widely used.

There is also a secure UDF standard that provides functions related to ensuring security, such as access control for extending the UDF and protecting the intellectual property rights (for example, copyright) of content data recorded on a removable recording medium. It has been formulated (see Non-Patent Document 1).
"Secure UDF Specification 1.00 (Secure UDF Specification Revision 1.00)", [online], February 26, 2002, OSTA, full text, [searched November 26, 2004], Internet < URL: http://www.osta.org/specs/pdf/SecureUDF_1_00.pdf>

  As described above, in the secure UDF, various specifications relating to ensuring security, such as encryption, are defined. However, the convenience of users handling content data recorded on removable recording media is further improved. There was room.

  Therefore, the present invention has been made in view of such circumstances, and content that can improve the convenience of handling content data such as audio data recorded on a removable (removable) recording medium. An object is to provide a data structure, a content data recording medium, and a content data recording apparatus.

In order to solve the above-described problems, the present invention has the following features. First, a first feature of the present invention is a recording apparatus including a control unit for viewing content data recorded on a recording medium, and an access unit for accessing the content data. A content file group including content data; and a track link file including a track link that is management information of the content data. The track link file is a first for managing first content data that is restricted in viewing. 1 track link file and a second track link file for managing second content data that is not restricted for viewing, and the content file group is a content for recording content data. file and variable-length which is additional information of the content data Include metadata file that records metadata, the track links has a data structure of a fixed length, and the link information to the content file, the case variable-length metadata is longer than the predetermined length, the variable-length metadata, viewed including the fixed-length metadata generated by deleting the long portion, the control means, when the license to view the first content data is acquired, the Means for generating a license file for storing license information; means for associating the license file with a content file including the first content data; and obtaining a license corresponding to the first content data. When viewing of the first content data is permitted, the first license that has been acquired A first track link corresponding to the content data, and a moving means for moving from the first track link file to the second track link file, the access unit refers to the link information of the track link Thus, the gist is to access the content data.

A second feature of the present invention is related to the first feature of the present invention, and is summarized in that the recording device sorts the content data based on the fixed-length metadata .

  According to such a feature, a user who uses content data (for example, audio data such as music content) uses a management file including link information and metadata (for example, the title or artist name of the music content). Data can be retrieved and played back more easily and quickly, and the convenience of handling content data can be improved.

  According to the features of the present invention, a content data structure, a content data recording medium, and a content data recording that can improve the convenience of handling content data such as audio data recorded on a removable recording medium. An apparatus can be provided.

  Next, an example of an embodiment of the present invention will be described with reference to the drawings. In the following description of the drawings, the same or similar parts are denoted by the same or similar reference numerals.

(Content data structure according to this embodiment)
First, a content data structure according to the present embodiment, specifically, an outline of a file format used when storing music content (audio data) in a hard disk, a rewritable optical disk, a removable recording medium such as a memory card, The directory structure and each file structure will be described.

(1) Outline of File Format FIG. 1 shows an outline of a file format (audio format) according to this embodiment. “Recorded Music Contents” (hereinafter abbreviated as MC) is an entity of music contents stored in a removable recording medium.

(1.1) Recorded Music Contents
MC 30 ₁ and 30 ₂ are contents obtained by ripping a CD or distributed via a communication network.

MC30 ₁ , 30 ₂ may be composed of a single piece of music or a plurality of pieces of music. The so-called “music album” unit can also be expressed by one MC. A “track” is composed of one piece of music, and a “music album” is composed of a plurality of songs.

MC 30 ₁ and 30 ₂ include not only music content but also metadata (music title, artist name, etc.) of the music content.

Further, when the music content is encrypted, the MCs 30 ₁ and 30 ₂ store a license file that describes a decryption key for decrypting the encrypted music content, a use condition of the music content, and the like. It has information indicating the relationship with the. Of course, the music content (audio data) included in the MCs 30 ₁ and 30 ₂ can be recorded on a removable recording medium in a compressed state.

(1.2) Track Link
“Track link” (hereinafter abbreviated as TL) is link information (track link information) to one song in MC. By TL20 _{1 to} 20 _{N + 1} , it is possible to access music contents in units of music. In addition to the track link information to the MCs 30 ₁ and 30 ₂ , the TLs 20 _{1 to} 20 _{N + 1} include TL ID, user search / presentation metadata, and resume information for recording the position of the last played music content. , And link count information for recording the number of links from a “track group” to be described later.

(1.3) Track Group
A “track group” (hereinafter abbreviated as TG) is a TL aggregate (represented by a TL list) or a TG aggregate (represented by a TG list).

  The TG 10 expressed by a collection of TLs is classified into a case where the order of the list is meaningful and a case where there is no meaning. For example, a “music album” or a “playlist” that collects songs that the user likes is meaningful in the order of the list. The “play list” can be freely created by the user, and is composed of a list of a plurality of songs.

  On the other hand, when the TG 10 is a “basic track set” that manages all songs recorded on the removable recording medium, the order of the list is meaningless. Also, TGs expressed as a collection of TGs are meaningless in the order of the list. As a usage example of the TG, there is a top playlist obtained by collecting playlists.

  In the TG, a group list and a TG ID are recorded. When the order of the list is significant, resume information or the like is recorded.

(2) Directory / File Configuration FIG. 2 shows a directory and file configuration (file system) used in this embodiment. In the present embodiment, secure UDF is used as the file system.

  The AUR_ROOT directory 110 is located under the ROOT directory 100 and is a root directory of an application for recording music content (audio data) on a removable recording medium, that is, a root directory for audio formats.

  AUD_SET. The MGR 120 is a file that manages all the music contents that have been recorded on the removable recording medium. Note that AUD_SET. In the MGR 120, the above-described TL and TG are also managed.

  The RT_AURS directory 130 is a directory in which the substance of music content is recorded. Specifically, AUDxxxxxxxx. The AIF file 140 is the substance of the music content. In “xxxxxxxx”, seven digits (from 0000000 to 9999999) (ASCII code) are described.

(3) AUD_SET. Configuration of MGR FIG. 3 shows an AUD_SET. The structure of MGR is shown. The main file is AUD_SET. Several stream files defined by the UDF are attached to the MGR 120. AUD_SET. The MGR 120 has entry information for the user interface, TL and TG management information.

  The TrackLinks stream file manages all track link information in a reproducible state. TG_0000 is a TG that manages all tracks described in the TrackLinks stream file, and maintenance is performed by an apparatus (for example, a content data recording apparatus) that uses a removable recording medium.

  The PRTLs stream file manages all track link information that is not in a reproducible state. TG_9999 is a TG that manages all tracks described in PRTLs, and exists only in the case of a preset model. TG_xxxx is a TG that can be freely defined by the user or the device. In xxxx, a 4-digit number (from 0000 to 9999) (ASCII code) is described. The contents of the preset model will be described later.

(3.1) AUD_SET. MGR file The main file, AUD_SET. The MGR 120 is composed of a series of modules as shown in Table 1, that is, (i) user interface entry information, (ii) track link management information, and (iii) track group management information.

(3.1.1) User interface entry information The user interface entry information has an entry structure as shown in Table 2.

  In “Audio Format Identifier”, “AUDIO” is described by the ASCII code. “Book Version” describes the version of the book. In the case of version 1.0, “0x10” is described.

  “Flag” has a structure as shown in Table 3.

  “Reserved” (bits 7 to 1) is a bit reserved for the future, and is set to 0b. “Preset” (bit 0) is set to 1b when there is music content for which a license is not purchased in a preset model or the like, and is set to 0b when there is no music content.

  In “Last Accessed UIE TG_ID” (see Table 2), the ID of the last accessed TG is described. The Last Accessed UIE TG_ID is used for a Resume Point.

  “Resume Support Flag” has a structure as shown in Table 4.

  “Reserved” (bits 7 to 1) is a bit reserved for the future, and is set to 0b. “Resume” (bit 0) is described as 1b in a device that supports the resume function, and 0b in a device that does not support the resume function.

  In “Last Accessed UIE TG_ID recorded Date” (see Table 2), the time when the ID of the last accessed TG is recorded is described. The “TIME” format is expressed as follows by ASCII code of 14 bytes. That is, it is expressed by four digits in the Christian era, two digits in the month, two digits in the day, two digits in the hour (24-hour display), two digits in the minute, and two digits in the second. In the case of a device that does not have a timer, all 0s are set.

  “Number of UIE TGs” includes AUD_SET. The total number of IDs of the highest TG that is an entry of the user interface located under the MGR 120 is described.

  In “UIE TG_ID (1) for Base Track Set”, the first UIE TG_ID is described. Specifically, 0000 is described in the ASCII code. The UIE TG_ID corresponds to the stream file TG_0000. UIE TG_ID corresponds to xxx in the stream file TG_xxxx. TG_0000 always exists as a TG for managing all tracks.

  In “UIE TG_ID (1) Name”, the name of UIE TG_ID (1) is described in ASCII code. That is, the TG Specific Structure Name of the corresponding TG structure is copied. Specifically, TrackSetBase is described in UIE TG_ID (1) Name.

  In “UIE TG_ID (2)”, the second UIE TG_ID is described. Specifically, a 4-digit number is described in ASCII code. The 4-digit number corresponds to the stream file TG_xxxx.

  Similarly to “UIE TG_ID (1) Name”, the name of UIE TG_ID (2) is described in “UIE TG_ID (2) Name” in the ASCII code.

  In “UIE TG_ID (n)”, the n-th UIE TG_ID is described. Specifically, a 4-digit number is described in ASCII code. The 4-digit number corresponds to the stream file TG_xxxx. Similarly to “UIE TG_ID (1) Name”, the name of UIE TG_ID (n) is described in “UIE TG_ID (n) Name” in ASCII code.

(3.1.2) Track link management information The track link management information has an entry structure as shown in Table 5.

  In “Track Link Location”, a file name (TrackLinks) in which a TL is recorded is described in ASCII code.

In “Prerecorded Track Link Location”, the file name in which the TL recorded since the purchase of the removable recording medium is recorded is described in ASCII code. “Prerecorded Track Link Location” is used in the preset model. In the case of the preset model, “Prerecorded Track Link Location” is described as PRTLs. For other than the preset model, “Prerecorded Track Link Location” is ignored.

(3.1.3) Track group management information The track group management information has an entry structure as shown in Table 6.

  “Number of Track Groups” describes the total number of TGs. In “Maximum Track Group ID”, the maximum value of TG_ID is described. Specifically, a 4-digit number is described in ASCII code. However, since “9999” is assigned for the preset model, it is not considered as the maximum value.

(3.2) TrackLinks stream file / PRTLs stream file The TrackLinks stream file and the PRTLs stream file have a structure as shown in Table 7.

  “Number of Track Links” describes the total number of TLs included in the TrackLinks stream file or PRTLs stream file. “Number of Valid Track Links” describes the number of valid TLs among the TLs included in the TrackLinks stream file and the PRTLs stream file.

  “Track Link Information (1) to (n)” is a structure in which n TL structures are arranged. n is a numerical value of the “Number of Track Links” field. As shown in Table 7, TL IDs are assigned in ascending order from “1”.

  In the present embodiment, the TL ID of the TrackLinks stream file is expressed as TL_ID, and the TL ID of the PRTLs stream file is expressed as PRTL_ID.

(3.2.1) TL Structure The TL structure has a structure as shown in Table 8.

  In “TL TYPE”, TYPE of a TL specific structure (see Table 9) is described. In the present embodiment, a Japanese system (TYPE 1) is defined.

  In “Length of Structure” (see Table 8), the length (number of bytes) of the TL structure is described.

  “TL Flag” has a structure as shown in Table 10.

In “V (bit 7)”, information indicating whether or not the TL structure is valid is described. Specifically, when the TL structure is valid, “V (bit 7)” is set to 1b. When the TL structure is invalid, “V (bit 7)” is set to 0b. “V (bit 7)” is used for simple erasing of the TL structure .

  “Reserved (bits 6 to 3)” is a bit reserved for the future, and is set to 0b. In “PS (bit 2)”, 1b is set in the case of a link to a song related to the preset model, and 0b is set otherwise.

  In “PE (bit 1)”, in the case of a link to a reproducible song, that is, when the song has a license, or when the song is not encrypted, the reproduction is impossible. In other words, if the song is encrypted and does not have a license for the song, 0b is set.

  “Part (bit 0)” is set to 1b when a plurality of songs are recorded as MC, and a part of them is designated. When MC is one song, it is set to 0b. Only when “Part (bit 0)” is 1b, the “Start Point in Contents File” and “Content Length” fields are valid.

  In “Link Count” (see Table 8), the total number of links linked from the TG is described. In “Music Contents ID”, a Music Contents ID is described. Specifically, the AUDxxxxxxxx. A number corresponding to xxxxxxxx of the AIF file is described in ASCII code.

  In “Start Point in Contents File”, the link start position of the music content file is specified by the byte position from the beginning of the file. In “Content Length”, a link range (byte length) to a music content file is described. As described above, the “Start Point in Contents File” and Content Length fields are valid only when the Part bit (see Table 10) of TL_Flag is 1b.

  In “Last Accessed Time”, the access time to the music content file reproduced last is recorded. In “Resume Point”, the reproduction start position of the music content file (AUDxxxxxxxx.AIF file) is designated by the byte position from the head of the file.

  In “Playback Counter”, the number of times playback is instructed is described. Note that the number of times described in the “Playback Counter” field does not include reproduction by resume. In “My Rating Info”, 10-stage weighting information input by the user is described.

  In “Character Set of Metadata”, the character code of the metadata field (see Table 11) is defined.

  A track title is described in “Title (MetaData, hereinafter referred to as MD)” (see Table 8). The character code specified in the “Character Set of Metadata” field is used. The end of the track title is performed by storing a NULL character.

  In “Title Kana (MD)”, track title search kana is described by double-byte katakana. The character code specified in the “Character Set of Metadata” field is used. The end of the track title is performed by storing a NULL character.

  In “Artist Name (MD)”, an artist name is described. The character code specified in the “Character Set of Metadata” field is used. The end of the track title is performed by storing a NULL character.

  In “Artist Name Kana (MD)”, an artist name search kana is described by double-byte katakana. The character code specified in the “Character Set of Metadata” field is used. The end of the track title is performed by storing a NULL character.

  In “Genre (MD)”, a genre is described. The character code specified in the “Character Set of Metadata” field is used. The end of the track title is performed by storing a NULL character.

  In “Genre Kana (MD)”, a genre search kana is described in double-byte katakana. The character code specified in the “Character Set of Metadata” field is used. The end of the track title is performed by storing a NULL character.

  In “Composer (MD)”, the composer name is described in double-byte katakana. The character code specified in the “Character Set of Metadata” field is used. The end of the track title is performed by storing a NULL character.

  In “Album Title (MD)”, the title of the music album (CD) is described in double-byte katakana. The character code specified in the “Character Set of Metadata” field is used. The end of the track title is performed by storing a NULL character.

  In “Track Number in CD (MD)”, a track number in the case of a music album is described.

(3.3) TG_xxxx stream file The TG_xxxx stream file has a structure as shown in Table 12.

  In “TG Specific Structure TYPE”, TYPE of a TG Specific structure (see Table 13) is described.

  “TG Flag” has a structure as shown in Table 14.

  “Reserved (bits 7 to 2)” is a bit reserved for the future, and is set to 0b. This bit is scheduled to be used for character code identification information.

  In “TL / TG (bit 1)”, 1b is set for a TL list, and 0b is set for a TG list. In “S / G (bit 0)”, 1b is set when the order of the list is the playback order, and 0b is set when it is not the playback order.

  In “TG Specific Structure Name” (see Table 12), the name of a TG Specific structure is described in ASCII code. In “Link Count”, the total number of links linked from the TG is described. It should be noted that the number of links is also counted as one when referred from the user interface entry information.

  In “Resume element”, the number of a resume element is described. The number is a number corresponding to x of element ID (x). “Resume element” is valid only when the S / G bit of TG_Flag is 1.

  “TG Specific Structure TYPE Specific Area” is an area for defining a structure that depends on a TG Specific structure. “Number of elements” describes the total number of elements belonging to the TG. Each element ID is described in “element IDs (1) to (n)”.

  In “element ID (1) Name to element ID (n) Name”, the name of the element ID is described.

(3.3.1) TG_0000 stream file The TG_0000 stream file is a TG that manages the TL managed by the TrackLinks stream file. Although defined by the TG_xxxx structure (TG_xxxx stream file) described above, there are the following restrictions.

TG Specific Structure TYPE = 0x00
・ TG Flag = 0x2
TG Specific Structure Name = Track_Bas
e
・ Link Count = 0
-Number of elements: matches the number of valid TLs managed by the TrackLinks stream file-element ID (1) to (n): TL_ID is described (3.3.2) TG_9999 stream file TG_9999 stream file is Only in the case of the preset model, it is a TG that manages the TL that exists in the initial state and is managed by the PRTLs stream file. Although defined by the TG_xxxx structure (TG_xxxx stream file) described above, there are the following restrictions.

TG Specific Structure TYPE = 0xFF
・ TG Flag = 0x2
TG Specific Structure Name = Preset_Tr
ack_Base
・ Link Count = 0
-Number of elements: matches the number of valid TLs managed by the PRTLs stream file-element ID (1) to (n): PRTL_ID is described (3.3.3) TG_xxx stream file TG_xxx stream file is , TL list or TG list. When represented by a TL list, the TL_ID managed by the TrackLinks stream file must be described in the element_ID. Note that the PRTL_ID of the PRTLs stream file cannot be referred to.

(4) AUDxxxxxxxx. Configuration of AIF File FIG. 4 shows an AUDxxxxxxxx. The structure of an AIF file is shown. As shown in the figure, AUDxxxxxxxx. The AIF file 140 includes an AudioData stream file (AudioData), a MetaData stream file (MetaData), and a * UDF_LICENCE secure stream file (* UDF_LICENCE).

(4.1) AUDxxxxxxxx. AIF file The main file, AUDxxxxxxxx. The AIF file 140 is composed of a series of modules as shown in Table 15, that is, (i) audio data management information, (ii) metadata management information, and (iii) license management information.

(4.1.1) Audio data management information The audio data management information has an entry structure as shown in Table 16.

  In “Number of Tracks”, the number of tracks recorded in the AudioData stream file is described.

  “AUD Flag” has a structure as shown in Table 17.

“Reserved (bits 7 to 1)” is a bit reserved for the future, and is set to 0b. “Enc (bit 0)” is set to 1b when the Track Data portion of the AudioData stream file is encrypted, and is set to 0b when it is not encrypted.

  “Playback Time” (see Table 16) describes the playback time of all tracks. In “File Size”, the file size of the AudioData stream file is described. In “Audio Format (Codec)”, Audio Format (see Table 18) is described.

  In “Bit Rate” (see Table 16), a bit rate (unit: kbps) is described. In “File Create Date”, a file creation date is described. In “Audio File Location”, the name of a file in which audio data is recorded is described in ASCII code (described as “AudioData”).

(4.1.2) Metadata Management Information Metadata management information has a structure as shown in Table 19.

  In “Character Set in Metadata File”, the character code of the MetaData stream file (see Table 20) is defined.

  In “MetaData Format”, TYPE of a TG Specific structure (see Table 21) is described.

  In “MetaData File Location” (see Table 19), the file name in which the metadata is recorded is described in ASCII code (denoted as MetaData).

(4.1.3) License Management Information License management information has a structure as shown in Table 22.

  “License Flag” has a structure as shown in Table 23.

  “Reserved (bits 7 to 2)” is a bit reserved for the future, and is set to 0b.

  In “PS (bit 1)”, 1b is set for the preset model, and 0b is set otherwise. In “LE (bit 0)”, 1b is set when the license exists, and 0b when the license does not exist.

  In “License File Location” (see Table 22), a file name in which a license (decryption key and usage conditions) is recorded is described in ASCII code. Specifically, * UDF_LICENSE is described only when the LE bit of License Flag is 1b.

(4.2) AudioData stream file The AudioData stream file is composed of a series of modules as shown in Table 24, that is, (i) Audio Data Header and (ii) Track Data.

(4.2.1) Audio Data Header
The Audio Data Header has an entry structure as shown in Table 25. Note that Audio Data Header is not subject to encryption.

“Length of Audio Data Header” includes Audio Data
a Header length (number of bytes) is described. In “Number of Tracks”, the number of tracks recorded in the AudioData stream file is described. In “Length of Track Data (# 1) to (#n)”, the Track Data length (number of bytes) is described.

(4.2.2) Track Data
In Track Data, data conforming to the Audio Format is recorded. Note that Track Data may be encrypted.

(4.3) MetaData stream file The MetaData stream file has a structure as shown in Table 26.

(4.4) * UDF_LICENCE secure stream file
* In the UDF_LICENCE secure stream file, a license (decryption key and usage conditions) is described. If the * UDF_LICENCE secure stream file exists, the application can decrypt the encrypted AudioData stream file.

(Music content management model configuration example)
Next, a configuration example of a music content management model using the content data structure according to the present embodiment described above will be described.

(1) Configuration example 1
FIG. 5 shows a model configuration example using “Track_Base (TG10 _TB )”.

Track_Base (TG10 _TB ) is a TG that manages the entire list of tracks recorded in a viewable state. If the music content (MC30 ₁ , 30 ₂ ) is encrypted, a license for decrypting it is required.

Track_Base (TG10 _TB ) is AUD_SET. Under the MGR file, it exists as a TG_0000 stream file. Track_Base (TG10 _TB ) is AUD_SET. Under the control of the MGR file, all TLs (TL20 _{1 to} 20 _{N + 1} ) managed as TrackLinks stream files are managed.

(2) Configuration example 2
6, Preset_Track_Base _{(TG10 PTB)} shows an example model structure using Preset_Track_Base _{(TG10 PTB)} is a file (TG) present only in the case of "preset model".

The preset model is a business in which encrypted music content (MC30 ₃ , 30 ₄ ) is recorded on a removable recording medium and sold to the user, and the user purchases a favorite track from the displayed list. It is a model.

In the preset model, the user only needs to obtain a license for decrypting the music content (MC30 ₃ , 30 ₄ ) encrypted at the time of purchasing a favorite track. For this reason, the user does not need to download a favorite track (music content) from a server or the like, and can quickly purchase the music content.

Further, in the preset model, the encrypted music content (MC30 ₃ , 30 ₄ ) is stored in the AUDxxxx.xxx located under the RT_AURS directory 130 in the same manner as the viewable music content. It is recorded in the AIF file 140 (see FIG. 2). However, since there is no license (* UDF_LICENCE secure stream file) at the beginning, the encrypted music content (MC30 ₃ , 30 ₄ ) cannot be reproduced as it is.

TL21 _{1 to} 21 _{N + 1} are AUD_SET. Under the MGR file, it is managed as a PRTLs stream file, and is managed separately from the TrackLinks stream file that manages viewable music content.

  Furthermore, in the preset model, a TG that manages the entire list of tracks that are recorded in a state in which viewing is impossible, that is, that does not have a license for decoding, is AUD_SET. Under the MGR file, it exists as a TG_9999 stream file.

  The TG_9999 stream file is AUD_SET. All TLs managed as PRTLs stream files located under the MGR file are managed. A TL managed as a PRTLs stream file has a limitation that it cannot be linked from a TG defined by the user.

  When the user acquires (purchases) a license of encrypted music content, the TL corresponding to the MC is deleted from the PRTLs stream file and added to the TrackLinks stream file.

  FIGS. 7 and 8 show that when the user acquires (purchases) a license for encrypted music content, the TL corresponding to the MC is deleted from the PRTLs stream file and added to the TrackLinks stream file. Is shown.

FIG. 7 shows the management state of the music content before the license (decryption key and usage conditions) is acquired. As shown in FIG. 7, licenses have been acquired for MCs 30 ₃ and 30 ₄ (indicated as “License” in the figure). On the other hand, the licenses of MC30 ₁ , 30 ₂ , and 30 _M have not been acquired yet.

Here, the user is assumed to newly licensed MC30 _2. Figure 8 shows the management state of music content in the after MC30 ₂ license was acquired. As shown in FIG. 8, the PRTLs stream file, MC30 ₂ corresponding to TL 21 ₂ has been deleted.

On the other hand, the TrackLinks stream file, as TL corresponding to _{MC30 2, TL20 3 (TL_ID #} 3) is added.

(3) Configuration example 3
FIG. 9 shows a basic configuration example of a music content (audio data) management model. As shown in FIG. 9, AUD_SET. A list of UIE TG_IDs to be accessed first exists in the user interface entry information (see Table 2) included in the MGR file.

In the configuration example shown in FIG. 9, there are two lists. One is Track_Base (TG10 _TB ) whose TG_ID is 0000, and manages all viewable TLs. Track_Base (TG10 _TB ) always exists, and the content data recording apparatus needs to maintain the contents of Track_Base (TG10 _TB ).

The other is Play List Top (10 _PLT ), which has a TG_ID of 0001 and is an entry of a playlist. Play List Top (10 _PLT ) is expressed as a list of _TGs . In the configuration example shown in FIG. 9, three playlists are managed.

_{Play List # 1, # 2,} # 3 (TG10 PL1, 10 PL2, 10 PL3) correspond respectively to TG_ID0002,0003,0004. The user, Play the List _{# 1, #} 2, to create # 3 _{(TG10 PL1, 10 PL2, 10} PL3) in new and can be erased or. The _{user, Play List # 1, # 2} , it is possible to edit the contents of _{# 3 (TG10 PL1, 10 PL2} , 10 PL3). Each play list is represented by a list of TL (TL 20 _{1 to} 20 _N ).

(4) Configuration example 4
FIG. 10 shows a configuration example in the case of managing music albums. Play list shown in FIG. _{9 (Play List # 1, #} 2, # 3 (TG10 PL1, 10 PL2, 10 PL3)) The difference between the content data recording apparatus when ripping CD, associated folders and file _{(Album Top (TG10 AT),} Artist a (TG10 a), Artist B (TG10 B), Album # 1, # 2, # 3 (TG10 A1, TG10 A2, TG10 A3) generates, the folders and files Is that editing by the user is disabled.

Also, in this configuration example, Track_Base (TG10 _TB ) does not manage music album information.

  Next, an embodiment using the above-described content data structure will be described with reference to the drawings.

(Configuration of content data recording device)
FIG. 11 shows the configuration of a music recorder 1000 (content data recording device) according to the present embodiment.

  As shown in FIG. 11, the music recorder 1000 has a CD drive 1102 that drives a CD 1101.

  The AAC encoder 1104 compresses the data amount of music content (audio data) read by the CD drive 1102. Specifically, the AAC encoder 1104 compresses audio data based on MPEG-4 AAC (ISO / IEC 14496-3).

  The encryption processing unit 1106 encrypts the audio data compressed by the AAC encoder 1104. The decryption processing unit 1108 decrypts the encrypted audio data.

  The AAC decoder 1110 decodes (decompresses) audio data output by the decoding processing unit 1108 and compressed based on MPEG-4 AAC. The D / A conversion unit 1112 outputs by the AAC decoder 1110. The audio data thus converted is converted into an analog signal. The analog signal output by the D / A converter 1112 drives the speaker 1114.

  The control unit 1116 is configured by an MPU or the like, and controls each unit connected to the control unit 1116. Further, the control unit 1116 has a built-in timer, and can acquire date and time information.

  The control unit 1116 generates track link information (link information) indicating the position and size of the MC on the removable HDD 1126, and constitutes a link information generation unit in this embodiment.

  The control unit 1116 describes the contents of the MC (for example, title and artist name) and acquires metadata used for searching for the MC (individual file). In the present embodiment, along with the modem 1128, Configure the metadata acquisition unit.

  Furthermore, the control unit 1116 receives AUD_SET. Including track link information and metadata. An MGR file (management file) is generated. In this embodiment, a management file generation unit is configured.

  In addition, the control unit 1116 receives AUD_SET. The MC is searched using the MGR file. In the present embodiment, a content search unit is configured. Note that AUD_SET. As described above, the MGR file includes the license management information (* UDF_LICENCE secure stream file) that permits the reproduction of the MC. The control unit 1116 reproduces the MC based on the license management information. In this embodiment, the control unit 1116 constitutes a content reproduction unit together with the decryption processing unit 1108.

  The display unit 1118 displays information output by the control unit 1116, for example, metadata such as the number of tracks of music content, track numbers, and titles and artist names. The remote control light receiving unit 1120 receives infrared light transmitted from the remote control 1122.

  The ATA interface 1124 is an interface (At Attachment) for connecting the control unit 1116 and the removable HDD 1126 so that they can communicate with each other.

  The removable HDD 1126 is a removable recording medium that can be removed from the music recorder 1000. The removable HDD 1126 records audio data ripped from the CD 1101, and the audio data is managed by the content data structure described above.

Removable HDD1126, as described above, each of the plurality of music contents (such as MC30 _1, 30 ₂₎ is recorded as a separate file.

  The modem 1128 is a communication device for connecting the music recorder 1000 (control unit 1116), the content server 1132, and the metadata server 1134 via the Internet network 1130 so that they can communicate with each other.

  Note that the music recorder 1000 can also be mounted with a communication device other than the modem 1128, for example, a media converter, based on a communication line system used for connection to the Internet network 1130.

(Operation of content data recording device)
Next, the operation of the music recorder 1000 (content data recording apparatus) according to this embodiment will be described.

(1) Initialization of Removable HDD FIG. 12 shows an initialization process flow of the removable HDD 1126 connected to the music recorder 1000.

  As shown in FIG. 12, in step S10, the music recorder 1000 creates an AUR_ROOT directory.

  In step S20, the music recorder 1000 reads AUD_SET. Create an MGR file. Specifically, AUD_SET. The fields that make up the MGR file are set as follows.

-Flag = 0
・ Num of UIE TGs = 1
・ UIE TG ID (1) = 0000 (ASCII)
Track Link Location = “./PROG_SET.MGR#TrackLinks”
-Number of Track Groups = 1
・ Maximum Track Group ID = 0000
In step S30, the music recorder 1000 creates a TrackLinks stream file. Specifically, the fields constituting the TrackLinks stream file are set as follows.

-Number of Track Links = 0
-Number of Valid Track Links = 0
In step S40, the music recorder 1000 creates a TG_0000 stream file. Specifically, the fields constituting the TG_0000 stream file are set as follows.

TG Specific Structure TYPE = 0x00
・ TG Flag = 0x02
TG specific structure name = “Track Base”
・ Link Count = 0
-Number of elements = 0
In step S50, the music recorder 1000 creates an RT_AURS directory.

(2) CD ripping (1 song)
FIG. 13 shows a flow of ripping audio data for one song from music content (audio data) included in the CD 1101 (see FIG. 11) and recording it on the removable HDD 1126.

  As shown in FIG. 13, in step S <b> 110, the music recorder 1000 determines that AUDxxxxxxxx.com is based on the audio data included in the CD 1101. Create an AIF file. Specifically, AUDxxxxxxxx. The fields constituting the AIF file are set as follows. Note that, in the fields shown below, for fields that do not have specific contents, AUDxxxxxxxx. Appropriate data is described according to the contents of the AIF file.

Number of Tracks = 1
・ AUD Flag
・ Playback Time
・ File Size
・ Audio Format = (AAC)
・ Bit rate
・ File Created Date
・ Character Set (Unicode)
・ MetaDataFile Format
・ License Flag
・ License File Location
In step S120, the music recorder 1000 updates the contents of the TrackLinks stream file. Specifically, the music recorder 1000 updates the contents of the TrackLinks stream file as described below. Note that, in the fields shown below, for fields that do not have specific contents, AUDxxxxxxxx. Appropriate data is described according to the contents of the AIF file.

・ Number of Track Links = n + 1
・ Number of Valid Track Links = n + 1
-Add TL structure-TL Specific Structure TYPE = 0x1
・ TL Flag
-Link Count = 1 (from TG_0000)
・ Music Content ID = xxxxxxxx
・ MetaData
My Rate Info
・ Last Accessed Time
・ Playback Counter
・ Resume Point
In step S130, the music recorder 1000 updates the contents of the TG_0000 stream file. Specifically, the music recorder 1000 updates the contents of the TG_0000 stream file as shown below.

-Number of elements = n + 1
-Add element ID (3) CD ripping (music album)
FIG. 14 shows a flow of ripping audio data composed of a plurality of music pieces from music content (audio data) included in the CD 1101 and recording it on the removable HDD 1126.

  As shown in FIG. 14, in step S <b> 210, the music recorder 1000 performs AUDxxxxxxxx.com based on the audio data included in the CD 1101. Create an AIF file. Specifically, AUDxxxxxxxx. The fields constituting the AIF file are set as follows. Note that, in the fields shown below, for fields that do not have specific contents, AUDxxxxxxxx. Appropriate data is described according to the contents of the AIF file.

・ Number of Tracks = m (m songs are included in the music album)
・ AUD Flag
・ Playback Time
・ File Size
・ Audio Format = (AAC)
・ Bit rate
・ File Created Date
・ Character Set (Unicode)
・ MetaDataFile Format
・ License Flag
・ License File Location
In step S220, the music recorder 1000 updates the contents of the TrackLinks stream file. Specifically, the music recorder 1000 updates the contents of the TrackLinks stream file as described below. Note that, in the fields shown below, for fields that do not have specific contents, AUDxxxxxxxx. Appropriate data is described according to the contents of the AIF file.

・ Number of Track Links = n + m
・ Number of Valid Track Links = n + m
-Addition of m TL structures In step S230, the music recorder 1000 updates the contents of the TG_0000 stream file. Specifically, the music recorder 1000 updates the contents of the TG_0000 stream file as shown below.

-Number of elements = n + m
・ Added element ID (m)
In step S240, the music recorder 1000 creates a TG_xxxx stream file. Specifically, the fields constituting the TG_xxxx stream file are set as follows.

TG Specific Structure TYPE = 0x01
・ TG Flag = 0x03
TG specific structure name = album title Link Count = 0
-Number of elements = m
-Element ID: Add m IDs-Add "1" to the Link Count included in the TL structure of each element In step S250, the music recorder 1000 is linked to the TG_xxxx stream file created in step S240 It is determined whether or not there is an upper TG (for example, TG10 _A shown in FIG. 10).

  When there is an upper TG to which the TG_xxxx stream file is linked (Yes in step S250), in step S260, the music recorder 1000 performs maintenance on the upper TG. Specifically, the following maintenance is performed.

-Number of elements = n + 1
-Element ID: xxx of the added TG_xxxx stream file
x portion is added. TG_xxxx If there is no higher TG to which the stream file is linked (No in step S250), in step S270, the music recorder 1000 uses AUD_SET. Update the contents of the MGR file. Specifically, as shown below, the music recorder 1000 uses AUD_SET. Update the contents of the MGR file.

-Flag = 0
・ Num of UIE TGs = 2
・ UIE TG ID (2) = xxxx (ASCII)
-Number of Track Groups = 2
・ UIE TG ID (2) Name = Album title ・ Maximum Track Group ID = xxxx
The operation when the music recorder 1000 rips the music content (music content) included in the CD 1101 has been described above. The music recorder 1000 is stored in the content server 1132 connected via the Internet network 1130. It is also possible to download existing music content and record it in the removable HDD 1126.

(4) Metadata Acquisition from CDDB FIG. 15 shows a flow for acquiring metadata related to music content from the CDDB.

  As shown in FIG. 15, in step S310, the user inserts the CD 1101 into the CD drive 1102 (see FIG. 11).

  When the CD 1101 is inserted into the CD drive 1102 (see FIG. 11), the music recorder 1000 acquires metadata corresponding to the CD 1101 from the metadata server 1134 in step S320.

  Specifically, the music recorder 1000 includes AUDxxxxxxxx. The metadata management information of the AIF file is acquired, and the metadata is registered in the MetaData stream file based on the acquired metadata management information. Note that the music recorder 1000 converts character codes used for metadata as necessary.

  In step S330, the music recorder 1000 registers metadata in the corresponding TL structure (see Table 8). When the metadata to be registered is longer than the field length, the music recorder 1000 deletes the portion of the metadata that cannot be described in the field.

(5) Playback (Title search / metadata display)
FIG. 16 shows a flow of reproducing music content (audio data) included in the removable HDD 1126.

  As shown in FIG. 16, in step S410, the music recorder 1000 determines that AUD_SET. Is located under the AUR_ROOT directory. Open the MGR file and display the UIE TG_ID list and name to the user.

In step S420, the user selects one TG_ID from the list of UIE TG_IDs.

  In step S430, the music recorder 1000 opens a TG_xxxx stream file corresponding to the selected TG_ID, and displays a list of element_IDs to the user.

  In step S440, the music recorder 1000 determines whether the element is a TG.

  When the element is TG (Yes in step S440), the music recorder 1000 repeats the process from step S420. If the element is not a TG, that is, if the element is a TL (No in step S440), in step S450, the user selects one TL_ID from the list of element_IDs.

  In step S460, the music recorder 1000 acquires a TL structure corresponding to the selected TL_ID from the TrackLinks stream file.

  In step S <b> 470, the music recorder 1000 reads AUDxxxxxxxx.from the “Music Contents ID”, “Start Point in Contents File”, and “Contents Length” of the acquired TL structure. The playback position of the AudioData stream file included in the AIF file is secured.

  In step S480, the music recorder 1000 acquires a license file (decryption key) from the * UDF_LICENCE secure stream file.

  In step S490, the music recorder 1000 decrypts and reproduces the audio data included in the AudioData stream file using the acquired decryption key.

  In step S500, the music recorder 1000 adds “1” to the Playback Counter of the TL structure. Note that the timing to add to the Playback Counter may be either at the start of playback or at the end of playback.

  In step S510, the music recorder 1000 determines whether or not the reproduction of the audio data, that is, the music content is stopped halfway.

  When the reproduction of the music content is stopped halfway (Yes in Step S510), in Step S520, the music recorder 1000 sets a resume point for the stopped position.

(6) Create playlist (TG)
FIG. 17 shows a flow for creating a playlist (TG).

  As shown in FIG. 17, in step S610, the user creates a playlist folder. When the playlist folder is created by the user, the music recorder 1000 generates a TG_xxxx stream file. Specifically, the fields constituting the TG_xxxx stream file are set as follows.

TG Specific Structure TYPE = 0x02
・ TG Flag = 0x03
TG specific structure name = playlist title Link Count = 0
-Number of elements = 0
In step S620, the user picks up what the user registers in the playlist from the TG_0000 stream file.

  In step S630, the music recorder 1000 updates the contents of the TG_xxxx stream file. Specifically, the music recorder 1000 updates the contents of the TG_xxxx stream file as shown below.

-Number of elements = n + 1
-Element ID: Adds the selected TL_ID-Adds "1" to the Link Count included in the TL structure of each element In step S640, the music recorder 1000 further determines whether there is something to add to the playlist. judge.

  Furthermore, when there is something to add to the playlist (Yes in step S640), the user repeats the processing from step S620.

In the play when there is nothing to add to the list (No in step S640), step S650, the music recorder 1000, higher TG which TG_xxxx stream file updated at step S630 is linked (e.g., TG10 _A shown in FIG. 10 ) Is determined.

  When there is an upper TG to which the TG_xxxx stream file is linked (Yes in step S650), in step S660, the music recorder 1000 performs maintenance on the upper TG. Specifically, the same maintenance as in step S260 is performed.

  If there is no upper TG to which the TG_xxxx stream file is linked (No in step S250), in step S670, the music recorder 1000 determines that the AUD_SET. Update the contents of the MGR file. Specifically, the music recorder 1000 uses the AUD_SET. Update the contents of the MGR file.

  When the music recorder 1000 generates a TG_xxxx stream file, as a simple allocation method for the “xxxx” portion, refer to the “Maximum Track Group ID” field (see Table 6) and set the current maximum value to “ A method is used in which a value obtained by adding “1” is assigned and a value obtained by adding “1” to the current maximum value is also assigned to the “Maximum Track Group ID” field.

  As another allocation method, there is a method in which all TG_IDs are searched, and if there is a missing number (for example, once generated and then deleted), the number is allocated. In this case, if there is no missing number, a value obtained by adding “1” to the current maximum value is assigned as described above, and the current maximum value is also set to “1” in the “Maximum Track Group ID” field. A value obtained by adding "" is assigned.

  That is, in the simple allocation method, it is not necessary to search all TG_IDs, and the allocation process of the “xxxx” portion can be executed at higher speed.

(7) Sorting List by Metadata FIG. 18 shows a flow for sorting a list by metadata. As shown in FIG. 18, in step S710, the user selects a TG represented by a TL list.

  In step S720, the user selects AUDxxxxxxxx. A field to be searched is selected from a MetaData stream file (metadata structure) included in the AIF file.

  In step S730, the music recorder 1000 recognizes the AUDxxxxxxxx.com corresponding to the TL that is an element of the TG. Candidate metadata is retrieved from the MetaData stream file of the AIF file. In step S740, the music recorder 1000 sorts the corresponding TLs in the order of metadata.

More specifically, as shown in FIG. 26, when a list is sorted by metadata from Track_Base (TG10 _TB ) composed of _five tracks (TL20 _{1 to} 20 ₅ , MC30 _{1 to} MC30 ₅ ), a music recorder 1000 executes the following processing for the TLs of TL_ID # 1 to TL_ID # 5.

(I) For TL_TL #n (n = 1 to 5) TL (TL20 _{1 to} 20 ₅ ), AUDxxxxxxxx. Opens a MetaData stream file belonging to the AIF file.

  (Ii) The number of bytes from the beginning of the MetaData stream file to the beginning of the “Genre” field is calculated (corresponding to calculating 1 + a + 1 + b + 1 + c + 1 + d in Table 26).

  (Iii) The value (= e) of the “Length of Genre” field is acquired.

  (Iv) Data described in the “Genre” field following the “Length of Genre” field is acquired.

  (V) Compare the list of TL_ID and Genre data with an already acquired list (for example, the list related to TL_ID # 1 and TL_ID # 2 in the case of TL_ID # 3), and in alphabetical order (50 sounds in Japanese) Sort in order).

For the TLs (TL20 _{1 to} 20 ₅ ) of TL_ID # 1 to TL_ID # 5, the music recorder 1000 that has performed the processes (i) to (v) described above displays the contents of the list in the sorted TL_ID order.

(8) High-speed sorting of list by metadata FIG. 19 shows a flow of sorting a list at high speed by metadata. As illustrated in FIG. 19, in step S710A, the user selects a TG represented by a TL list.

  In step S720A, the user selects a field to be searched from the metadata fields defined by the TL structure.

  In step S730A, the music recorder 1000 searches for candidate metadata from the TL structure corresponding to the TL that is the element of the TG. In step S740A, the music recorder 1000 sorts the corresponding TLs in the order of metadata.

  That is, in the list sorting method based on metadata shown in FIG. 18, AUDxxxxxxxx. The MetaData stream file (metadata structure) included in the AIF file must be opened and the contents searched, but the list sorting method based on metadata shown in FIG. 19 has a TL structure having a fixed length of 324 bytes. Since the field (see Table 8) is used, sorting can be executed at higher speed.

More specifically, as shown in FIG. 26, when a list is sorted at high speed by metadata from Track_Base (TG10 _TB ) composed of _five tracks (TL20 _{1 to} 20 ₅ , MC30 _{1 to} MC30 ₅ ), The music recorder 1000 opens the TrackLinks stream file and executes the following processing.

  (I) The head position of the “Genre” field of TL_ID # 1 is acquired. Specifically, the start position of the “Genre” field of TL_ID # 1 is 210 bytes from the start of the TrackLinks stream file (in Table 7, the data of the TL structure related to TL_ID # 1 starts from the 8th byte. In Table 8, the “Genre” field starts from the 202nd byte.

  (Ii) The data described in the “Genre” field is acquired, and a list of TL_ID and Genre data is stored.

  (Iii) The leading position of the “Genre” field of TL_ID # 2 (the 534th byte (210 + 324 bytes, see Tables 7 and 8)) is acquired. Similarly, the start positions of TL_IDs # 3, # 4, and # 5 are the (210 + 2 × 324) byte, the (210 + 3 × 324) byte, and the (210 + 4 × 324) byte.

  (Iv) Compare the list of TL_ID and Genre data with an already acquired list (for example, a list related to TL_ID # 1 and TL_ID # 2 in the case of TL_ID # 3), and in alphabetical order (50 sounds in Japanese) Sort in order).

For the TLs (TL20 _{1 to} 20 ₅ ) of TL_ID # 1 to TL_ID # 5, the music recorder 1000 that has executed the processes (i) to (iv) described above displays the contents of the list in the sorted TL_ID order.

(9) Fast Search of List Using Metadata FIG. 20 shows a flow for searching a list at high speed using metadata. As shown in FIG. 20, in step S810, the user selects a TG represented by a TL list.

  In step S820, the user selects a field to be searched from the metadata fields defined by the TL structure.

  In step S830, the user inputs a character corresponding to the selected field.

  In step S840, the music recorder 1000 searches the metadata from the TL structure corresponding to the TL that is the element of the TG, and executes matching with the character input by the user. In step S850, the music recorder 1000 displays a corresponding TL list to the user.

  Also in this search method, since a TL structure (see Table 8) having a fixed length of 324 bytes is used, a higher-speed search can be executed as compared with the case of opening a MetaData stream file.

(10) Resume Point Setting FIG. 21 shows a flow for setting a resume point. As shown in FIG. 21, in step S910, the music recorder 1000 receives AUD_SET. Display a list of UI TGs from the MGR file to the user.

  In step S920, the user selects one TG from the UIE TG list. In step S930, the music recorder 1000 describes the selected TG_ID in the “Last Accessed UIE TG_ID” field. Also, the music recorder 1000 describes the time at which the TG_ID is described in “Last Accessed UIE TG_ID recorded date”.

  In step S940, the music recorder 1000 displays the element list of the selected TG to the user.

When the element is a TG (No in Step S950), in Step S980, the user selects one TG from the TG list. In step S990, the music recorder 1000 adds the TG_ID to “Resume element”.

  When the element is TL (Yes in step S950), in step S960, the user selects one TL from the TL list. In step S970, the music recorder 1000 adds the TL_ID to “Resume element”.

  Thereafter, the music recorder 1000 reproduces the audio data based on the TL structure corresponding to the selected TL_ID (see the processing after step S470 in FIG. 16).

(11) Resume Playback FIG. 22 shows a flow of playing back audio data (resume playback) based on the resume point. As shown in FIG. 22, in step S1010, the music recorder 1000 performs AUD_SET. A TG_xxxx stream file corresponding to the TG_ID described in “Last Accessed UIE TG_ID” of the MGR file is opened.

  In step S1020, the music recorder 1000 acquires element_ID described in “Resume element” of the corresponding TG.

  In step S1030, the music recorder 1000 determines whether the element is a TG. When the element is TG (Yes in Step S1030), the music recorder 1000 repeats the processing from Step S1020.

  If the element is TL (No in step S1030), in step S1040, the music recorder 1000 determines whether or not a resume point is set.

  When the resume point is set (Yes in step S1040), in step S1050, the music recorder 1000 reproduces audio data from the resume point. On the other hand, when the resume point is not set (No in step S1040), in step S1060, the music recorder 1000 reproduces audio data from the beginning of the song (or music album).

  When the resume point setting is an optional specification, as described above, AUD_SET. The “Resume Support Flag” of the MGR file is used. A music recorder or the like (content data recording device) that supports resume records 1b at start-up (eg when the power is turned on). On the other hand, music recorders that do not support resume record 0b at startup.

  Further, when the removable HDD 1126 (removable recording medium) is moved and then reproduced by another music recorder or the like, the other music recorder or the like first performs AUD_SET. The contents of “Resume Support Flag” of the MGR file are read. When the value is 1b, resume playback is performed, and when the value is 0b, resume playback is not performed.

(12) Title Deletion FIG. 23 shows a flow for deleting a title associated with music content (audio data). As shown in FIG. 23, in step S1110, the music recorder 1000 opens a TG_0000 stream file (Track_Base (TG10 _TB )) and displays a list of element_IDs and names to the user.

  In step S1120, the user selects one title to be deleted. In step S1130, the music recorder 1000 determines that the AUDxxxxxxxx. It is determined whether or not the AIF file is composed of only one track.

  AUDxxxxxxxx. If the AIF file is composed of only one track (Yes in step S1130), in step S1160, the music recorder 1000 determines that the AUDxxxxxxxx. Delete the AIF file.

  AUDxxxxxxxx. When the AIF file is not composed of only one track (No in step S1130), that is, when the AIF file is composed of a plurality of songs, in step S1140, the music recorder 1000 reads the AUDxxxxxxxx. Search for a link to an AIF file.

  In step S1150, the music recorder 1000 transmits the AUDxxxxxxxx. It is determined whether one or more links to the AIF file exist.

  The AUDxxxxxxxx. If there is one or more links to the AIF file (Yes in step S1150), the music recorder 1000 determines that the AUDxxxxxxxx. The process of step S1170 is executed without deleting the AIF file.

  On the other hand, the AUDxxxxxxxx. If there is no link to the AIF file (No in step S1150), in step S1160, the music recorder 1000 determines that the AUDxxxxxxxx. Delete the AIF file.

  In step S1170, the music recorder 1000 determines that the AUDxxxxxxxx. The TL structure associated with the AIF file is deleted, and the link to the TL is deleted from the TG that links the TL structure. Specifically, since the number linked from the TG is described in “Link Count” of the TL structure, the music recorder 1000 deletes the link to the TL based on “Link Count”.

  When the TL structure is deleted from the TrackLinks stream file, other TL_IDs are decreased by “1” (because TL_IDs are arranged in order). For this reason, the maintenance of the TL_ID of the deleted TL and the TL_ID after the TL is necessary for all TGs.

  That is, the music recorder 1000 performs maintenance of a TG that links a TL_ID having a larger value than the deleted TL_ID. Specifically, the value of the TL_ID is decreased by “1”.

  FIG. 24 shows a changed part of the “title deletion” flow shown in FIG. The processes of step S1141 and step S1142 shown in FIG. 24 are executed instead of the process of S1170 shown in FIG.

In step S1141, the music recorder 1000 deletes the link of the TL from the TG linked to the TL structure to be deleted. In step S1142, the music recorder 1000 turns OFF the Valid bid of the TL structure. The link to the TL is deleted from the TG that links the TL structure. In this case, the above-described maintenance of the TL_ID is not necessary. That is, since the TL structure itself is not deleted, TL_ID does not change. However, for the TG, it is necessary to delete the deleted TL_ID. According to this simple method, when the TL is added next time, the area where the Valid bid is OFF can be reused.

(13) Purchase in Preset Model FIG. 25 shows a flow in which a user purchases desired music content in a preset model in which music content (audio data) encrypted in advance is recorded in the removable HDD 1126.

  In the case of the preset model, the audio data (AudioData stream file) is AUDxxxxxxxx. Recorded in an AIF file. The TL is recorded in the PRTLs stream file exclusively for the preset model. The user obtains (purchases) the removable HDD 1126 in which the audio data and various files are recorded as described above.

  In this state, the user cannot view the music content (audio data) recorded in the removable HDD 1126, and therefore needs to perform a purchase procedure. Specifically, as shown in FIG. 25, in step S1210, the user selects music content to be purchased using a high-speed search (see FIG. 20) by the music recorder 1000 or the like.

  In step S1220, the user purchases a license (decryption key and usage conditions) for viewing the music content. Specifically, the user accesses the content server 1132 and purchases the license.

  When the license is purchased by the user, in step S1230, the music recorder 1000 displays the AUDxxxxxxxx. At the same time as setting “License Flag” which is license management information included in the AIF file, a * UDF_LICENCE secure stream file is generated.

  In step S1240, the music recorder 1000 moves the TL from the PRTLs stream file to the TrackLinks stream file (for details, refer to the description related to FIGS. 7 and 8 above). Note that the title in the PRTLs stream file is deleted by the simple method shown in FIG.

(Action / Effect)
According to the present embodiment and the present example described above, a user who uses audio data such as music content can receive AUD_SET. Including track link information and metadata management information (MetaData stream file). Since the MGR file is used, the music content can be searched and reproduced more easily and quickly, and the convenience of handling the music content can be improved.

(Other embodiments)
As described above, the content of the present invention has been disclosed through one embodiment of the present invention. However, it should not be understood that the description and drawings constituting a part of this disclosure limit the present invention. From this disclosure, various alternative embodiments will be apparent to those skilled in the art.

  For example, in the above-described embodiment of the present invention, music content (audio data) has been described as an example. However, the present invention can be applied not only to music content but also to, for example, still image or moving image content.

  In the above-described embodiment of the present invention, the removable HDD 1126 (removable recording medium) has been described as an example. However, the present invention can also be applied to a hard disk drive (HDD) built in a content data recording apparatus or the like. it can.

  As described above, the present invention naturally includes various embodiments not described herein. Therefore, the technical scope of the present invention is defined only by the invention specifying matters according to the scope of claims reasonable from the above description.

It is a figure which shows the outline | summary of the file format which concerns on embodiment of this invention. It is a figure which shows the structure of the directory and file which concern on embodiment of this invention. AUD_SET. According to the embodiment of the present invention. It is a figure which shows the structure of MGR. According to an embodiment of the present invention, AUDxxxxxxxx. It is a figure which shows the structure of an AIF file. It is a figure which shows the example of a model structure using "Track_Base" concerning the embodiment of the present invention. It is a figure which shows the model structural example using "Preset_Track_Base" which concerns on embodiment of this invention. It is a figure which shows the state before the license of the music content encrypted was acquired (purchased) in the model structural example which concerns on embodiment of this invention. It is a figure which shows the state after the license of the music content encrypted was acquired (purchased) in the model structural example which concerns on embodiment of this invention. It is a figure which shows the fundamental structural example of the music content management model which concerns on embodiment of this invention. In the embodiment of the present invention, a configuration example in the case of managing a music album is shown. It is a figure which shows the structure of the music recorder (content data recording device) which concerns on the Example of this invention. It is a figure which shows the operation | movement flow of the music recorder which concerns on the Example of this invention. It is a figure which shows the operation | movement flow of the music recorder which concerns on the Example of this invention. It is a figure which shows the operation | movement flow of the music recorder which concerns on the Example of this invention. It is a figure which shows the operation | movement flow of the music recorder which concerns on the Example of this invention. It is a figure which shows the operation | movement flow of the music recorder which concerns on the Example of this invention. It is a figure which shows the operation | movement flow of the music recorder which concerns on the Example of this invention. It is a figure which shows the operation | movement flow of the music recorder which concerns on the Example of this invention. It is a figure which shows the operation | movement flow of the music recorder which concerns on the Example of this invention. It is a figure which shows the operation | movement flow of the music recorder which concerns on the Example of this invention. It is a figure which shows the operation | movement flow of the music recorder which concerns on the Example of this invention. It is a figure which shows the operation | movement flow of the music recorder which concerns on the Example of this invention. It is a figure which shows the operation | movement flow of the music recorder which concerns on the Example of this invention. It is a figure which shows the operation | movement flow of the music recorder which concerns on the Example of this invention. It is a figure which shows the operation | movement flow of the music recorder which concerns on the Example of this invention. It is a model block diagram for demonstrating the sort operation of the track link performed in the music recorder based on the Example of this invention.

Explanation of symbols

_{10,10 A, 10 A1 ~10 A3,} 10 AT, 10 B, 10 PL1 ~10 PL3, 10 PLT, 10 PTB, 10 TB ... TG ( track group)
20 _{1 to} 20 _{N + 1} , 21 _{1 to} 21 _{N + 1} ... TL (track link)
30 ₁ to 30 ₄ , 30 _M ... MC (recorded music content)
100 ... ROOT directory 110 ... AUR_ROOT directory 120 ... AUD_SET. MGR
130 ... RT_AURS directory 140 ... AUDxxxxxxxx. AIF file 1000 ... music recorder 1101 ... CD
1102 ... CD drive 1104 ... AAC encoder 1106 ... Encryption processing unit 1108 ... Decryption processing unit 1110 ... AAC decoder 1112 ... D / A conversion unit 1114 ... Speaker 1116 ... Control unit 1118 ... Display unit 1120 ... Remote control light receiving unit 1122 ... Remote control 1124: ATA interface 1126: Removable HDD
DESCRIPTION OF SYMBOLS 1128 ... Modem 1130 ... Internet network 1132 ... Content server 1134 ... Metadata server

Claims (2)

Control means for viewing content data recorded on a recording medium ;
A recording device comprising access means for accessing the content data,
The recording medium includes a content file group including content data and a track link file including a track link which is management information of the content data.
The track link file includes a first track link file for managing first content data that is restricted in viewing and a second track link file for managing second content data that is not restricted in viewing. And is configured to have
The content file group includes a content file that records content data and a metadata file that records variable-length metadata that is additional information of the content data,
The track link has a fixed-length data structure, and when the link information to the content file and the variable-length metadata are longer than a predetermined length, the long part is derived from the variable-length metadata. look including the fixed-length metadata generated by deleting a
The control means, when a license for viewing the first content data is acquired, means for generating a license file for storing the license information;
Means for associating the license file with a content file including the first content data;
When viewing of the first content data is permitted due to the acquisition of the license corresponding to the first content data, the first track link corresponding to the first content data for which the license has been acquired. And moving means for moving from the first track link file to the second track link file,
The access means accesses the content data by referring to link information of the track link.
A recording apparatus. The recording device performs sorting of the content data based on the fixed-length metadata .
The recording apparatus according to claim 1.

Images