Source: https://patents.google.com/patent/DE60016972T2/en
Timestamp: 2020-01-28 18:09:07
Document Index: 674271910

Matched Legal Cases: ['Art 1816', 'Art 1816', 'Art 1816', 'art 650', 'art 700', 'art 718', 'art 718', 'art 900', 'art 900', 'art 900', 'art 1000', 'arts 1018', 'art 1018', 'Art 1816', 'art 1300', 'art 1400', 'art 1402', 'arts 1402', 'art 1404', 'arts 1404', 'arts 1404', 'arts 1404']

DE60016972T2 - Adaptable safety mechanism to prevent unlawful access to digital data - Google Patents
Adaptable safety mechanism to prevent unlawful access to digital data
DE60016972T2
DE60016972T2 DE2000616972 DE60016972T DE60016972T2 DE 60016972 T2 DE60016972 T2 DE 60016972T2 DE 2000616972 DE2000616972 DE 2000616972 DE 60016972 T DE60016972 T DE 60016972T DE 60016972 T2 DE60016972 T2 DE 60016972T2
DE2000616972
DE60016972D1 (en
T. Steven ANSELL
S. Jason BROWNELL
A. Susan CANNON
R. Andrew CHERENSON
Leon Rishniw
1999-12-20 Priority to US468279 priority Critical
1999-12-20 Priority to US09/468,279 priority patent/US6792113B1/en
2000-10-11 Application filed by Microsoft Corp filed Critical Microsoft Corp
2000-10-11 Priority to PCT/US2000/028205 priority patent/WO2001046786A1/en
2005-01-27 Publication of DE60016972D1 publication Critical patent/DE60016972D1/en
2005-05-25 Publication of DE60016972T2 publication Critical patent/DE60016972T2/en
The The present invention relates to systems for restricting unauthorized access to digital data and, in particular, a mechanism for Limiting access to such digital data to either one particular machine or a specific user, and a mechanism to have limited access from a particular machine to a particular one To convert users.
Of the Protecting digital data from unauthorized access is a primary concern from software manufacturers since the date to the software manufacturer Have started using computer software on portable data storage media deliver. Such protection has gained new meaning since other forms of digital data now also on portable Data storage media are transported. Example meadow read and describe the current workstation data storage media, which also for omnipresent audiovisual entertainment, such as audio CD discs (CDs) and digital video discs (DVDs) are used. Therefore are normal Workstation able to duplicate very valuable data in such a way that exact copies of the original ones Data can be easily redistributed to acquaintances.
A New development has made the threat to the trade value easily more replicable digital data expanded: the Internet. Now, individuals can valuable digital data for free copying by millions People enter and do this frequently. Such a posting presents a catastrophic failure of all attempts, unauthorized Prevent copying.
One earlier An attempt to prevent unauthorized copying of software existed in that a hardware device was needed on a computer to run was to install the software. Such devices have become general referred to as "dongles". One Dongle contained either identification data provided by the software before the execution checked or contained encryption data and / or logic for decrypting of software before running. Dongles were common externally, allowing software to transfer to another computer could be done by attaching the dongle to the other computer has been.
dongles never achieved much success on the market. One reason is that several software products can be installed in each computer. Consequently had Many dongles must be attached to each computer. One Another reason is that adding a new hardware device to a calculator could have unintended results that are affected the normal operation of the computer disturbing. A third The reason is that many people own multiple computers, and that regular implementation from one of several dongles from one computer to another a significant inconvenience was. Generally preferred users to not connect any new hardware to their computers Execute software, if a software manufacturer of the competition such an additional Hardware did not require.
Machine binding, for example, by using dongles, is generally for people unacceptable, the more audiovisual content than computer software to buy. Maybe the consumer public as a result of the portable nature of historical distribution media with audiovisual content (such as vinyl albums, audio CDs, videotape, DVDs, etc.), that audiovisual content is played back on all devices may be the buyer has. For example, a buyer expects a videotape cassette of a particular movie that he has the movie on each VCR with a compatible format. Therefore, a strict one Machine binding of audiovisual content in general for the consumer public unacceptable.
One another mechanism with which software manufacturers try to illicit Counteracting copying software is the binding of the software to a specific user. For example, the successful To run depending on the software be made by entering a password by the specific User. Such generally provides inadequate security ready as the user gives the password to a friend or colleague together with an unauthorized copy of the software can. Furthermore makes the request to a user to get passwords for each Software product and / or any audiovisual work to remember have to, which is accessed by the user, a considerable Inconvenience for the user
In general, it should be remembered that copy protection benefits the digital data manufacturer, eg software and / or audiovisual work, and does not benefit the buyer. Accordingly, buyers of such digital data have a relatively low tolerance for inconvenience. As a result, the consumer public tends to get data from Herstel to buy those who use less copy protection.
What needed is, is a mechanism by which any copyrightable content protected by digital storage media against unauthorized copying, while he unhindered the owner of such digital storage media convenient use and enjoyment of the content.
document US 4,757,534 discloses code protection using cryptography that binds hardware to hardware using hardware-bound keys.
document EP 0 766 165 discloses a licensee notification system that displays the user identification data to the user before commencing operation.
In accordance with the present invention as claimed in the claims Annex is defined, content may be from a machine-bound State to be converted to a user-bound state, without modifying the data itself. Instead, keys are the ones for the Access to the content used by the machine-bound state converted to the user-connected state.
1 Figure 13 is a block diagram of a computer system that includes a server computer system coupled to a client computer system over a wide area computer network. The client computer system includes a content player, which in turn accesses data secured in accordance with the present invention.
2 FIG. 12 is a block diagram of the content playback apparatus of FIG 1 in greater detail.
3A - B are block diagrams of the security manager of the content playback device of 2 in greater detail.
4 FIG. 10 is a block diagram of a machine-bound passport generator in accordance with the present invention. FIG.
5 Fig. 12 is a block diagram of a portable full password generator in accordance with the present invention.
6A FIG. 10 is a block diagram of a Passport converter that converts a machine-bound passport to a full-passport in accordance with the present invention.
6B Figure 3 is a logic flow diagram illustrating the conversion of a passport in accordance with an alternative embodiment.
7 Figure 4 is a logic flow diagram of the authentication of a digital data retrieval user in accordance with the present invention.
8th Figure 3 is a logic flow diagram of the acquisition of a new machine-bound passport during user authentication in accordance with the present invention.
9 is a logical flowchart of processing by the server process of 1 for a request for a new machine-bound passport in accordance with the present invention.
10 Figure 3 is a logic flow diagram of the detection of a new full passport during user authentication in accordance with the present invention.
11 is a logical flowchart of processing by the server process of 1 for a request for a new full-passport in accordance with the present invention.
12 is a logical flowchart of processing by the server process of 1 for a request for a new full-passport in accordance with the present invention.
13 is a logical flowchart of processing by the server process of 1 for a request for a new full-passport in accordance with the present invention.
14 is a logical flowchart of processing by the server process of 1 for a request for a new full-passport in accordance with the present invention.
15 FIG. 12 is a logic flow diagram of processing a step of the logic flowchart of FIG 14 in greater detail.
16 FIG. 12 is a logic flow diagram of processing a step of the logic flowchart of FIG 14 in greater detail.
17 is a block diagram showing the certificate database of 1 in more detail shows.
18 is a block diagram showing the account record of 17 in more detail shows.
19 is a block diagram showing the key record of 17 in more detail shows.
20 is a block diagram showing the history record of 17 in more detail shows.
21 is a block diagram of a certificate.
22 is a block diagram showing the passport of 1 in more detail shows.
23 is a block diagram of a user-bound passport.
24 is a block diagram of a machine-bound passports.
In accordance With the present invention, content can be from a machine-bound State can be converted to a user-bound state without Modifying the data itself. Instead, keys are the ones for the Access to the content used by the machine-bound State converted to the user-connected state. Especially become the keys in a Passport data structure Holding either a machine tie or a user tie can represent.
The system 100 for the transfer of digital data (digital data delivery system) ( 1 ) includes an authorization system 102 and a client computer system 104 that have a wide-area computer network 106 coupled together. In one embodiment, the wide area computer network is 106 the Internet. Although a wide area network 106 It should be understood that the principles of the system described herein are also applicable to other networks, such as local area networks. The authorization system 102 includes a content database 122 and a certificate database 124 , The content database 122 contains digital data content that is from the authorization system 102 is available for distribution. Such content may include, for example, data representing audiovisual works and / or computer software.
Although the content database 122 as in the authorization system 102 As it will be appreciated, it may be advantageous to separate the content handover from the credentials and the content database 122 on a different server system. One advantage is that content handover tends to involve the transmission of large amounts of data. Such transfers benefit from being handed over by distributed delivery servers located near client computer systems that receive the transferred content. Conversely, authentication involves small transactions that are less dependent on fast data transfer speeds, but benefits from a central database with cross-system authentication. For the sake of simplicity, both server and authentication functions are provided by the authorization system 102 settled, and the authorization system 102 includes both the content database 122 as well as the certificate database 124 ,
The certificate database 124 contains data representing the way in the previously distributed contents of the content database 122 is protected, either for a particular client computer system or for a particular human buyer. The types of information contained in the certificate database 124 stored are described more fully below. Briefly, such information includes digital certificates that are known authentication data structures, eg, the known certificate data structure ITU-T X.509.
The authorization system 102 also contains an authentication server 126 that is all or part of one or more computer processes that are in the permissions system 102 be executed. The authentication server 126 receives queries over the wide area network 106 and serves such queries. Such queries include machine-bound security queries for committed content, user-supplied security for submitted content, and security conversion of committed content in a manner more fully described below.
The client computer system 104 contains a database 144 with acquired content database, a user database 146 , one or more passports, such as Passport 148 , a hardware identifier 140 and a content playback device 142 , Database 144 with acquired content contains content that comes from the content database 122 and maybe similar content databases were acquired. Such purchased content is protected in a manner more fully described below using one or more passports.
The user database 146 stores information for one or more users of the client computer system 104 , Such information around For example, passwords allow users to authenticate themselves. "Password" is used herein to describe all data provided by a user for authentication purposes. Accordingly, "password" is used herein to describe both single-word passwords and multi-word passwords, sometimes referred to generally as passphrases.
Passports, such as the Passport 148 , represent the mechanism by which acquired content is protected in the database 144 with acquired content. Passports are from the authentication server 126 output. A passport may protect content for a particular client computer system and / or user in a manner more fully described below.
The hardware identifier 140 uniquely identifies the client computer system 104 in the certificate database 124 , In addition, the hardware identifier 140 derived from data in the client computer system 104 difficult to change, ie it is exclusively readable. For example, the hardware identifier 140 a data hash representing one or more hardware components of the client computer system 104 is unique, such as (i) a serial number of a processor of the client computer system 104 , (ii) a MAC address of a network access card through which the client computer system 104 accesses a wide area network, and (iii) serial numbers of one or more hard disk drives in the client computer system 104 are installed. In this illustrative embodiment, the hardware identifier becomes 140 formed using the Interlock ® software tool set that is available from PACE Anti-Piracy of San Jose, California.
The content playback device 142 is all or part of one or more computer processes running in the client computer system 104 be executed, and gives acquired content from the database 144 with acquired content, sometimes referred to here simply as "acquired content" or as "acquired content 144 ' is referenced. For example, when purchased content represents audio work, the content playback device converts 142 Data from acquired content to data corresponding to for playback through a sound card and speakers of the client computer system 104 are formatted. When purchased content represents audiovisual works, the content playback device converts 142 similarly, data from acquired content is converted into data corresponding to playback via a sound card and speakers and to a video display device of the client computer system 104 are formatted. Further, when purchased content is computer software, the content playback device decodes 142 Calculator statements from the acquired content and causes these decoded computer statements through the client computer system 104 be executed. Acquired content may generally include any type of data including, without limitation, (i) audiovisual works such as music, other recorded sound, moving-picture video, and still images; (ii) documents in such formats such as ASCII text, rich text format (RTF), Microsoft ® Word and Portable Document Format (PDF) from Adobe ® Acrobat ®; and (iii) executable computer software.
The content playback device 142 is in more detail in 2 shown. The content playback device 142 contains a decryption device 202 , the acquired content 144 using a master key 208 decrypted by a security manager 206 provided. In this illustrative embodiment, the decryption device uses 202 symmetric key decryption algorithms, such as FIPS 46.2 DES or RSA Security's RC4 in terms of performance. Performance is important in this embodiment because the content acquired by a decoding device 204 for real-time playback both has to be decrypted and decoded. As used herein, real-time playback means playback by the content playback device 142 a minimum amount of decrypted and decoded data from the acquired content 144 per unit of time required. For example, if the content acquired 144 Audio works represents the content playback device 142 in general, decode and decode 44,100 audio samples per second - 176,400 bytes per second for CD audio quality in stereo.
During symmetric key decryption efficiency while decrypting acquired content 144 allows, requires such that the master key 208 from the server process 126 ( 1 ), the master key 208 ( 2 ) is used to encrypt the content, somehow to the content playback device 142 is transmitted. The security manager 206 directs the master key 208 in a safe way.
The security manager 206 is in more detail in the 3A and 3B shown. 3A shows the derivation of the master key 208 from a user-bound passport 148A , and 3B shows the derivation of the master key 208 from a machine-bound passport 148B , The security manager 206 contains a decryption device 306 that a secret key 304 used to be the master key 208 from a media key 302 to decrypt in the acquired content 144 is included. The secret key 304 is a secret key of a secret / public key pair in the certificate database 124 ( 1 ). The decryption device 306 ( 3A ) uses asymmetric key decryption, such as RSA Security's well-known public RSA key algorithm.
symmetrical and asymmetric key encryption / decryption are known but will be briefly described here for the sake of completeness. Symmetric key encryption uses the same key to encrypt and decrypting of data. For example, data is generated using a specific Data pattern encrypted, that as a key referred to as. When encrypting the data is scrambled the data in a way that a little bit appears indiscriminately and the data does not appear decipherable. The encrypted Data can returned to their original "unambiguous" state by using the same specific data Key are decrypted.
Asymmetric key encryption uses two keys that are linked together to form a pair. One key is kept secret, and the other key is made public; accordingly, the key pair is sometimes referred to as a secret / public key pair. Encryption with one of the two keys forms encrypted data that can be decrypted with the other key of the pair. The keys of the pair are therefore sometimes generally referred to as reciprocal to each other. The content playback device 142 ( 1 ) can cryptographically sign data by encrypting the data using the secret key. Each public key holder of the content playback device 142 can verify the signature by using the public key of the content playback device 142 be decrypted. Similarly, any public key holder of the content playback device 142 Encrypt data using the public key so that the data is only using the secret key of the content playback device 142 can be decrypted. For example, the server process encrypts 126 the master key 208 ( 3 ) for Passport 148A using the public key of a key pair to the media key 302 and taking the couple's secret key into the passport 148A , Accordingly, the media key 302 be decrypted using the secret key that is in the passport 148A is stored, ie the private player key.
The security manager 206 gets the secret key 304 either from a user-supplied passport 148A ( 3A ) or a machine-bound passport 148B ( 3B ). A passport is a data structure through which a secret key is used to decrypt the media key, eg media key 208 , used by purchased content, is either tied to a user or a computer system. A user-assigned passport is tied to a particular user and can be transferred to any computer system in which the user wishes to reproduce the content purchased. Accordingly, a user-bound passport is sometimes referred to as a full-passport or a portable passport. A machine-bound passport is tied to a particular computer system for rendering acquired content and can generally be used by any user of the computer system.
It should be mentioned that security by the decryption device 306 in conjunction with the media key 302 and the private key 304 provided. The passports 148A-B provide a data structure in which the private key 304 can be bound either to a user or to a specific computer system. Such binding limits the portability of purchased content while providing the user with the choice of which type of binding is more convenient. In other words, the user can choose either a machine-bound or a user-bound passport.
To facilitate understanding and appreciation of this flexibility in terms of secret key binding, the structure of a passport is described. The passport 148 ( 1 ) can be either machine-bound or user-connected. The passport 148 is in more detail in 22 showing components that are common to both machine-bound and user-supplied passports. The passport 148 contains a field passport information 2204 , a field signature algorithm 2206 and a field signature 2208 ,
The Passport Information field 2204 contains data that contains the essential passport information, including a secret key, with the purchased content being sent to the passport 148 is bound, can be decrypted. The type and structure of data in the Passport Information box 2204 are stored, hän depends on the type of passport. For example, Passport 148A ( 3A ) a user-supplied full-passport and contains passport information 2204A of the type and structure described below in the context of 23 to be discribed. passport 148B ( 3B ) a machine-bound passport and contains passport information 2204B of the type and structure described below in the context of 24 to be discribed.
The field signature algorithm 2206 and the field signature 2208 together specify a cryptographic signature of the Passport Information field 2204 , The field signature algorithm 2206 specifies the specific algorithm and all parameters thereof that are used to cryptographically sign the Passport Information field 2204 be used. The field Signature 2208 contains data indicating the resulting cryptographic signature using the secret key of the authentication server 126 represent. The field signature algorithm 2206 and the field signature 2208 Provide an effective mechanism to determine if data. the in the passport information 2204 stored, manipulated. For example, if a cracker changes data in the passport information 2204 the cracker must create a corresponding signature so that such manipulation would go undetected. As the secret key of the authentication server 126 however, it is carefully protected and subject to the strictest secrecy, making forgery of such a cryptographic signature particularly difficult.
The passport information 2204B ( 24 ) of the machine-bound passport 148B will be discussed below in the context of 3B described. The passport information 2204A ( 23 ) contain the following data components: (i) user certificate 2302 , (ii) secret key 2304 , (iii) secret user information 2306 and (iv) registry keys 2308 ,
The user certificate 2302 is a digital certificate used to authenticate the user. Digital certificates and their use in authentication are known. In one embodiment, the user certificate indicates 2302 the form of a digital ITU-T X.509 certificate.
The user certificate 2302 contains a public key 2320 , Validity dates, a certificate serial number 2324 and a digital signature 2326 , The public key 2320 is the counterpart to the secret key 2304 , To bind content to the user, to the user-supplied passport 148A is bound, the master key is using the public key 2320 so encrypted that only the secret key 2304 the master key from the media key 302 can decrypt. The validity dates 2322 specify a period of time during which the user certificate 2302 is considered valid. The certificate serial number 2324 uniquely identifies the user certificate 2302 in the certificate database 124 ( 1 ). The digital signature 2326 is a digital signature created by the unit that holds the user certificate 2302 issues, appends, and is used to verify that the user certificate 2302 (i) has not been tampered with and (ii) issued by the relevant Certificate Authority.
The secret key 2304 is the secret key of the key pair that is used to encrypt the master key 208 ( 3A ), thereby using the media key 302 to form, for example, the secret key 304 , Accordingly, decrypting the media key results 302 by the decryption device 306 of the security manager 206 using the secret key 304 to the master key 208 , Besides, the secret key is 2304 the counter-key to the public key 2320 the user certificate 2302 , The secret key 2304 is using the registry key 2308 encrypted, which is described below.
The secret user information 2306 contain information about the user to whom the passport 148A is bound. Such information is preferably secret and protected by the user. Secret user information 2306 be from the client computer system 104 when playing back purchased content 144 displayed. Accordingly, the user recoils from the user-bound passport 148A Sharing as this would require secret user information 2306 also to share. The secret user information 2306 contain the name 2362 the user and the credit card details 2364 the user. The credit card details 2364 For example, you may include the credit card number, expiration date, and billing address. During the registration of the user will be the credit card details 2364 checked to ensure that the secret user information is correct. If the credit card information 2364 are not correct, eg contain a stolen credit card number entered by the user for registration purposes, the user will not be adequately informed of the sharing of classified information 2306 and thus the passport 148A and any related content held.
The secret user information 2306 be using the registry key 2308 encrypted. The registry key 2308 is again encrypted using a password provided by the user. Accordingly, the user's password is for decrypting the registry key 2308 required, in turn, to decrypt the secret key 2304 and the secret user information 2306 is required. The registry key 2308 is in the certificate database 124 stored in a format that is recoverable without the password of the user being a registry key 2304 can be generated for a new password in case the user forgets his password.
The random number 2310 stores pseudo-random data and is included in the cryptanalysis of encrypted Passport information 2204A to thwart. The authentication server 126 generates a new random number each time the passport 148A is spent again. The passport information 2204A be via the wide area network 106 ( 1 ) in an encrypted format. Accordingly, changes to the random number are spreading 2310 through the passport information 2204A so that otherwise identical copies of Passport information 2204A in encrypted form look completely different. In one embodiment, the random number 2310 only when transmitting Passport information 2204A , for example via the wide area network 106 , and is not in the persistent disk record of Passport 148A saved.
To get the secret key 304 ( 3A ) decrypts the decryption device 310 of the security manager 206 the registry key 2308 using the password provided by the user. The user provides the password using standard user interface techniques in response to a prompt given to the user by the content playback device 142 is shown. The result of decrypting the registry key 2308 is from the decryption device 312 as a key to decrypt the secret key 304 from the secret key 2304 used. The secret key 304 is used in the manner previously described to the master key 208 with which acquired content can be decrypted for playback.
The machine-bound passport 148B ( 3B ) is to the client computer system 104 and not tied to a specific user. As a result, the playback of purchased content points to the Passport 148B is bound, no secret user information, such as the private user information 2306 ( 23 ). Instead, the secret key 2404 ( 3B ) of the machine-bound passport 148B encrypted by using as a key the hardware identifier of the computer system to which the passport 148B is bound. In this example, the passport is 148B to the client computer system 104 ( 1 ), and the secret key 2404 ( 3B ) is using the hardware identifier 140 encrypted. Accordingly, the secret key 2404 through the encryption device 308 encrypted, with the hardware identifier 140 as a key is used to handle the secret key 304 to obtain. Therefore, the passport is 148B only useful if the hardware identifier 140 is available, ie if the passport 148B within the client computer system 104 is used. If the passport 148B is copied to another computer system having a hardware identifier, the hardware identifier 140 can not match, the secret key 304 not from the secret key 2404 be derived. Accordingly, the passport binds 148B acquired content 144 to the client computer system 104 ,
If the contents of the content database 122 ( 1 ) has been purchased, the authentication server supports 126 binding the purchased content to either the computer system to which the content is to be delivered or to the purchasing user. The user is provided with options regarding the type of preferred binding. In one embodiment, the option becomes the user when first installing the content playback device 142 offered in the client computer system, and the selection is recorded and maintained until the user actively makes another choice. If the user wishes to access the content on multiple computer systems (or at least on a computer system different from that on which the purchase was made), the user selects the user binding enabled by a passport, such as the passport 148A ( 3A ). However, if the user prefers not to provide any secret user information, such as the secret user information 2306 ( 23 ) and is willing to access the content only on the particular computer system through which the purchase is made, the user selects the machine binding enabled by a passport, such as the passport 148B ( 3B ).
To prepare content for binding to either a user or a computer system, the content is rendered using a master key 208 ( 4 ), which in turn is encrypted by an encryption device 406 ver is keyed to the media key 302 to build. The media key 302 is included in the encrypted content. A public key 304B is used in conjunction with asymmetric encryption to get the media key 302 form, such as this media key 302 , and therefore the encrypted content itself can only be used with the private key 304 be decrypted.
To bind content to a particular computer system contains the authentication server 126 a generator 404 for machine-bound passports ( 4 ). In the certificate database 124 ( 1 ) stores the authentication server 126 secret / public key pairs for all content rendering devices connected to the authentication server 126 are registered, such as the content playback device 126 , To facilitate understanding and appreciation of the operation of the authentication server 126 will be the type and structure of the certificate database 124 stored data more completely in the context of 17 described.
The certificate database 127 contains a number of tables, namely (i) a table with account records 1702 , (ii) a table of key records 1704 and (iii) a table of history records 1706 , An account record, such as the account record 1702 stores data associated with a particular user in a content distribution system 100 ( 1 ). A key record, such as the key record 1704 ( 17 ), includes a secret / public key pair used to encrypt submitted content in the manner previously described, and includes usage parameters of the key pair, such as expiration and limitations on how often the key pair can be reissued. Reissuing a key pair is described in more detail below. A history record, such as the history record 1706 , has an event such as reissuing a key pair or converting a passport from machine bound to user bound. Fraud and / or unauthorized copying of passports and / or content can sometimes be detected by checking the history records. For example, requests by the same user from many different client computer systems to replace lost keys indicate that a user has provided numerous copies of his passport to others.
The account record 1702 is in more detail in 18 shown and contains the following fields: (i) field serial number 1802 , (ii) field name 1804 , (iii) field e-mail address 1806 , (iv) field land 1808 , (v) field question 1810 , (vi) field response 1812 , (vii) Field Status 1814 and (viii) Field Art 1816 , The field serial number 1802 stores a serial number that is unique in the serial numbers that are in the authentication server 126 are processed. Serial numbers are used in this illustrative embodiment for associating related records. For example, if the account record 1702 represents a specific user, and the key record 1704 ( 19 ) represents the secret / public key pair of the user, corresponds to the serial number that is in the Serial Number field 1802 ( 18 ), the serial number that is in the Serial Number field 1902 ( 19 ) is shown. Furthermore, the history records associated with the user's account and keys can be found by adding history records with a corresponding serial number in the Serial Number field 2002 ( 20 ) are located.
The field name 1804 ( 18 ) stores data representing the name of the user to whom the account belongs, which through the account record 1702 is pictured. The field E-mail address 1806 stores data representing the user's e-mail address. The Country field stores data that represents the country of the user's home.
The field question 1810 and the field answer 1812 are used to authenticate the user when, for example, a request is received, the account record 1702 to change. The field question 1810 indicates a question asked to the user and the field answer 1812 indicates the correct answer. For example, the question may concern the birth name of the user's mother.
The field status 1814 Represents the status of the account. Status values displayed in the Status field 1814 stored include "valid" and "revoke". The field Art 1816 represents the type of account. Type values in the field Art 1816 include "machine-bound" and "user-bound".
The key record 1704 will be in more detail in 19 and contains the following fields: (i) Serial Number field, (ii) Secret Key field 1904 , (iii) Public key field 1906 , (iv) field validity dates 1908 , (v) field limit reissue 1910 , (vi) limiting passport keys 1912 and (vii) hardware identifier 1914 , The field serial number 1902 stores the serial number corresponding to the key record. The Secret Key field 1904 and the Public Key field 1906 Store each secret and public key of the secret / public key pair that is from the key record 1704 is pictured.
The field Validity dates 1908 Specifies dates for which certificates are from the key record 1704 have been created are valid. If the validity end date in the key record 1704 has expired, certificates that come from the key record 1704 have been created, no longer used to extract content from the content database 122 to buy. Certificates coming from the key record 1704 have been created in the manner described below, however, continue to correctly decrypt previously acquired content. If the key record 1704 The Validity dates field is updated to indicate new, different validity dates, and the secret key 1904 and the public key 1906 stay unchanged. Accordingly, content may be generated using an expired passport based on a key record 1704 purchased using a renewed version of the same passport, ie a renewed version of the key record 1704 can be decrypted because the renewed passport contains the same keys. However, it should be understood that the renewal may require the user to change their password, and consequently components of the passport encrypted with the user's password will look different.
The Restrict Limit field 1910 Specifies the maximum number of times the keys of the key record 1704 can be reissued in the manner described more fully below. The field limit passport key 1912 Specifies the maximum number of keys that can be received by a passport managed by the owner of the associated account, such as the Serial Number field 1902 is determined in the manner described above. The field Hardware ID 1914 represents a hardware identifier to which the key pair is bound in the manner described above. For example, if the field Hardware ID 1914 the hardware identifier 140 represents a machine-bound passport containing the secret key that is in the Secret Key field 1904 shown using the hardware identifier 140 encrypted.
The history record 1706 ( 17 ) is more complete in 20 shown and contains the following fields: (i) field serial number 2002 , (ii) field creation 2004 and (iii) field activity 2006 , The field serial number 202 stores a serial number that is analogous to the one above with reference to the serial number fields 1802 (( 18 ) and 1902 ( 19 ) has been described. The field Creation 2004 ( 20 ) indicates a time at which the history record 1706 was created. The field activity 2006 Specifies the type of activity that uses the serial number of the serial number field 2002 is linked to the table of history records 1706 ( 17 ) must be recorded. Species that the field activity 2006 For example, re-issuing a key includes renewing a key and adding a key to a user-supplied passport.
The authentication server 126 may be a digital certificate, for example a certificate ITU-T X.509, from the fields of the account record 1702 and the key record 1704 create as in 21 shown. In particular, the certificate contains 2100 the public key 1906 and the validity dates 1908 from the key record 1704 ( 19 ) and name 1804 ( 21 ), E-mail address 1806 and country 1808 from the account record 1702 ( 18 ). It also contains the certificate 2100 a certificate serial number 2102 which in this illustrative embodiment conforms to specification ITU-T X.509. It should be noted that the certificate serial number has no relation to the serial numbers 1802 ( 18 ) 1902 ( 19 ) and 2002 ( 20 ) and is independent of these. The certificate 2100 also contains a digital signature 2104 that comes from the authentication server 126 from the secret key of the authentication server 126 in accordance with specification ITU-T X.509 in this illustrative embodiment.
The certificate database 124 Provides a comprehensive and flexible basis for authenticating purchased content, whether machine-bound or user-connected.
Returning to the generator 404 for machine-bound passports ( 4 ) can be the master key 208 only using the secret key 304 from the media key 302 be decrypted. Therefore, the media key 302 and all associated content to the client computer system 104 ( 1 ) is the secret key 304 to make the secret key 2404 in an encryption device 408 using the hardware identifier 140 encrypted as a key. Therefore, the hardware identifier 140 required the secret key 304 to decrypt and restore, which is then needed to get the master key 208 to decrypt and restore, which in turn is needed to decrypt the content it has encrypted with it. The hardware identifier 140 is in the field Hard ware identifier 1914 of the key pair 1704 represented, that the secret key 304 and the public key 304B each in the field Secret key 1904 and in the Public key field 1904 contains.
The secret key 2404 will be in the Passport information 2204A through a Passport compression program 410 (passport packer) recorded using the secret key of the authentication server 126 also the PassportInformation 2204B signed to the signature 2208 to build. In addition, the Passport compression program sends 410 the passport information 2204B and the signature 2208 to the content playback device 142 over a secure channel in the manner described more fully below. This is how the generator binds 404 for machine-bound passports content that comes with the master key 208 is encrypted to the hardware identifier 140 ,
The authentication server 126 also contains a generator 504 for full passports ( 5 ) that creates user-created passports, such as the passport 148A ( 3A ). The encryption device 406 Encrypts the master key 208 using the secret key 304B to the media key 302 in the manner described above.
The generator 504 for full passports ( 5 ) contains an encryption device 508 , the counter-key, ie the secret key 304 using a trigger registry key 520 (clear registration key) encrypted to the secret key 2304 to build. Accordingly, the secret key 2304 veiled and ready for inclusion in the Passport information 2204A , The trigger registry key 520 is from an encryption device 506 encrypted, where the user-provided password is used as a key to the registry key 2308 to build. To stop the distribution of the resulting Full Passport to other users, a Passport compression program packs 510 the secret key 2304 and the registry key 2308 with secret user information 2306 put together the Passport information 2204A to build. It also forms the Passport compression program 510 the signature 2208 to manipulations of passport information 2204A to detect and prevent. In one embodiment, the secret user information becomes 2306 encrypted using the user-provided password to protect the user's secret information when purchased content is not played back. To the acquired content, with the master key 208 using the Passport information 2204A Encrypted to successfully decrypt is the authenticity of the signature 2208 checked, and the secret key 2304 and the registry key 2308 from the passport information 2204A are syntactically analyzed (parsed). The registry key 2308 is then decrypted using a key provided by the user and, after decryption, decrypts the secret key 304 from the secret key 2303 used. The secret key 304 is then used to decrypt the master key 208 from the media key 302 which is syntactically analyzed from the acquired content. The Passport compression program 510 sends the passport information 2204A and the signature 2208 to the content playback device 142 over a secure channel in the manner described more fully below.
At some point, a user who has decided to do so prefers acquired data only using the client computer 104 it may have prioritized machine binding, it may prioritize upgrading from machine building to user binding so that the user can replay the content acquired using another computer system. For example, it may be that the user has replaced his previous computer system with a new one or purchased an additional computer system. The conversion of a machine-bound passport, such as Passport 148B into a user-assigned passport, such as Passport 148A , through the authentication server 126 is from a Passport conversion device 602 ( 6A ).
The passport conversion device receives to convert the passport 602 the hardware identifier 140 , the secret user information 2306 and the password provided by the user. These items are received by the client computer system over a secure connection. The secret user information 2306 and the password provided by the user is provided by a user of the client computer system 102 entered at the time of conversion, since such information is required in a user-bound password, but not required in a machine-bound passport. An important consideration in converting machine binding is that no modification is required to all content acquired. In essence, the secret core key 304 which is required to decrypt the acquired content, eg the secret key 304 in the converted passport maintained so that the Me serving key 302 can remain unchanged.
The Passport conversion device 602 from 6A is a somewhat simplified embodiment in which the majority of processing is done by the authentication server 126 is performed. An alternative embodiment in which some of the elements of the passport conversion device 602 Component of the content playback device 142 are, in the following in the context of 6B described.
The Passport conversion device 602 contains a Passport syntax analyzer 604 (passport parser), which is the signature 2208b of the passport to be promoted, and the secret key 2404 from the passport information 2204B is syntactically analyzed. It also includes the Passport Conversion Device 602 a decryption device 606 that the secret key 2404 using the hardware identifier 140 as a key decrypted to the secret key 304 to derive again. Alternatively, the authentication server uses 126 the hardware identifier 140 to retrieve the key record 1704 ( 19 ), the keys 304 and 304B according to the field Hardware ID 1914 from the certificate database 124 equivalent. In any case, the secret key 304 ( 6A ) is required to play any purchased content previously using the hardware identifier 140 to the client computer system 104 was bound.
The Passport conversion device 602 contains the encryption devices 506 and 508 that the secret key 2304 and the registry key 2308 in the way that in the context of 5 has been described. The secret user information 2306 are also encrypted using the user supplied password as a key. The Passport conversion device 602 contains the Passport compression program 510 that the secret key 2304 , the registry key 2308 and the secret user information 2306 packed to the secret passport information 2204A to build. The Passport compression program 510 forms the signature 2208 to manipulate the passport information 2204A to detect and prevent. As previously with reference to 3B described binds a user-bound passport, such as Passport 148A , acquired content to a particular user by requesting the password provided by the user and by displaying secret user information 2306 ( 23 ). The passport port 148A and all accessible content is not to the hardware identifier 140 bound and can be transferred to other computer systems for playback.
The logical flowchart 650 ( 6B ) shows the conversion of a machine-bound passport 148B in the user-bound passport 148A in accordance with an alternative embodiment. In step 652 Encrypts the content playback device 142 the hardware identifier 140 using the public key of Passport 148B , eg the public key of certificate 2402 , In step 654 the content player sends the certificate from Passport 148B and the encrypted hardware identifier to the authentication server 126 as part of a requirement, the Passport 148B upgrade to a user-assigned passport.
In step 656 receives the authentication server 126 the certificate and the encrypted hardware identifier from the content playback device 142 , In step 658 checks the authentication server 126 the signature of the certificate. The authentication server 126 retrieves the certificate record, e.g. For example, the certificate record 2100 ( 21 ), the received certificate from the certificate database 124 in step 660 ( 6B ) corresponds. In step 662 calls the authentication server 126 the linked account record, eg the account record 1702 , and the key record, eg the key record 1704 ,
In step 664 the authentication server decrypts 126 the received encrypted hardware identifier using the secret key of the retrieved key record, eg the secret key 1904 of the key record 1704 , In step 666 compares the authentication server 126 the encrypted hardware identifier with the hardware identifier of the retrieved key record, eg the hardware identifier 1914 of the key record 1704 , If the hardware identifiers do not match, the password conversion fails 148B fail. Otherwise the conversion will continue.
In step 668 sets the authentication server 126 a full passport record and send it with a secret plaintext key and registry key and empty user information. Plain text is used here as usual in cryptography and means non-encrypted and not necessarily human-readable text. It should be noted that a key can be formed by using an encryption algorithm; but it is considered plain text, if the key before the use of the key, for example to Encrypt / decrypt other data, no decryption required. The full passport record is sent to the content playback device 142 sent over a secure channel.
In step 670 receives the content playback device 142 the full-passport record from the authentication server 126 , The content playback device 142 receives a user-provided password and the secret user information from the user via conventional user interface techniques in step 672 ,
In step 674 Encrypts the content playback device 142 the secret user information, the secret key and the registration key using the password provided by the user in the manner described above with reference to the encryption devices 506 - 508 ( 6A ) and the Passport compression program 510 has been described.
use convertible passports for Purchase and playback of data
The logical flowchart 700 ( 7 ) illustrates the authentication by the content playback device 142 ( 1 ) during a purchase of data by a purchasing user. In the test step 702 ( 7 ) detects the content playback device 142 ( 1 ), if there is a user-supplied full-passport. In one embodiment, the content playback device includes 142 a register of one or more passports associated with data transmitted through the content playback device 142 can be played back. If there is a full passport, processing goes to step 704 ( 7 ) in which the purchasing user inputs a password using conventional user interface techniques. In the test step 706 ( 7 ) detects the content playback device 142 whether the entered password corresponds to the full passport, its presence in test step 702 is sometimes referred to as the selected full passport. The content playback device 142 makes such a determination by trying the secret key 2304 ( 23 ) of the selected full passport. In this illustrative embodiment, the secret key becomes 2304 encrypted using RSA Security's well-known password encryption algorithm PKCS # 5, and the use of this algorithm provides a signal indicating whether that is to decrypt the secret key 2304 password used is the correct password. If the password does not match the selected full passport, processing returns to step 704 back and the user enters a different password. If the password matches the selected full passport, processing moves to step 708 in which the processing of the purchase of content is continued.
The purchase contains the selection of specific content to be purchased and the money order. The specific content selected for purchase by the user is sometimes referred to herein as the selected content. The content playback device 142 provides the certificate in its passport, with the selected full passport specified as the passport to which the selected content is to be bound, and the authentication server 126 binds the content to the selected certificate in the manner outlined above with reference to 5 has been described. In particular, the master key of the selected content is encrypted by the encryption device 406 encrypted, being the public key of the playback device 304B as the key is used to the media key 302 to build. The generator 504 Full Passport is not used because the selected Full Passport is already in the content playback device 142 is available. The use of the public key 304B to encrypt the master key 208 binds the content to a passport that holds the secret key 304 contains. The certificate serial number, eg the certificate serial number 2102 that is contained in the selected content identifies to which passport the selected content is bound.
Returning to the test step 702 ( 7 ), processing proceeds when there is no full-passport in the content playback device 142 is present, with test step 710 continued. In the test step 710 detects the content playback device 142 whether a machine-bound passport exists. If there is no machine-bound passport, processing continues 718 via, which is described below. Conversely, if there is a machine-bound passport, processing continues 712 above.
In step 712 calls the content playback device 142 the hardware identifier 140 from. In the test step 714 determines the content playback device, whether the hardware identifier 140 the hardware identifier corresponding to the machine-bound passport is that of the content playback device 142 was found. In one embodiment, such a determination is made by attempting the secret key 2404 using the hardware identifier 140 with an encryption algorithm, such as the RSA algorithm PCKS # 5, to decrypt, indicating whether the for the Decryption key used is the right key. If not, processing goes to step 716 over in which the user an error message is displayed. The error message indicates that the machine-bound passport found is not part of the client computer system 104 belongs. The content playback device 142 can respond to such an error in various ways. For example, the content playback device 142 instruct the user to clear the faulty machine-bound passport and processing according to the logic flow diagram 700 to re-initiate (the processing reaches step 718 and the subsequent in the subsequent repetitive processing according to the logic flow diagram 700 ). The content playback device 142 can also send such an error to the authentication server 126 report, so that the unauthorized distribution of machine-bound passports can be tracked.
If the hardware identifier 140 however, if the correct identifier is the processing goes from the checking step 714 to step 708 and the purchasing process continues in the manner described above, except that each purchase content is tied to a machine-bound passport. Upon requesting the selected content, the content playback device sends 142 their certificate to the authentication server 126 , The authentication server 126 uses the public key of this certificate to the master key 208 to encrypt, causing the selected content to the content playback device 142 is bound. The machine-bound passport coming from the content playback device 142 already contains the secret key of the content playback device 142 that using the hardware identifier 140 is encrypted.
Back to the test step 710 ( 7 ); if from the content playback device 142 no machine-bound passport is found has the content playback device 142 No passports at all, and the workmanship is going to move 718 above. In step 718 requests the content playback device 142 a new machine-bound passport from the authentication server 126 at. step 718 is described more fully below in connection with the logic flow diagram 718 ( 8th ). After step 718 constructs the content rendering device 142 a new machine-bound passport from a machine-bound Passport record from the authentication server 126 Will be received. After step 720 will the purchase of content in step 708 continued in the manner described above.
The logical flowchart 718 ( 8th ) shows the requirement of a machine-bound passport in more detail. In step 802 represents the content playback device 142 a secure connection to the authentication server 216 ago. Such a secure connection will be described in more detail below. In step 804 requests the content playback device 142 an information template for a new machine-bound passport. In response to such request, the authentication server sends 126 an information template for new machine-bound passports. An information template is a collection of data to be provided by the user in data fields and prompts. In one embodiment, the information template is an XML description of the data that needs to be captured by the user. If an information template from the content playback device 142 is received, the processing passes through the checking step 806 to the step 808 about where the content playback device 142 Collects information that is specified in the received information template. Such information may be input by the user using conventional user interface techniques. The processing goes to step 810 above. If no information template is received, processing passes directly through the checking step 806 to the step 810 over and skip step 808 ,
In step 810 sends the content playback device 142 the hardware identifier 140 and all information provided by the user to the authentication server 126 as a request for a new machine-bound passport. After step 810 the processing becomes according to the logic flowchart 718 and with step 718 ( 7 ) completed.
The logical flowchart 900 ( 9 ) illustrates the processing by the authentication server 216 ( 1 ) in response to a request of a new machine-bound passport received from the content playback device 142 in step 810 ( 8th ) was made. In step 902 ( 9 ) the authentication server receives 126 the hardware identifier and all information provided by the user. In the test step 904 determines the authentication server 126 whether all key records corresponding to the received hardware ID are in the certificate database 124 available. The authentication server 126 makes such a determination by searching for key records, eg key record 1704 ( 19 ), which has a corresponding hardware identifier in the Hardware ID field 1914 having. If no such key record is found, processing moves to step 906 ( 9 ) above. If, conversely, a derar tiger key record is found, the processing goes to the test step 912 via, which is described below.
In step 906 creates the authentication server 126 create a new secret / public key pair and create a new certificate based on the new key pair, e.g. B. each key pair of the key record 1704 ( 19 ) and the certificate 2100 ( 21 ). In step 908 ( 9 ) links the authentication server 216 the new certificate with the received hardware identifier, eg the hardware identifier 140 , in the certificate database 124 , Such a link is achieved by the hardware identifier 140 in the field Hardware ID 1914 ( 19 ) of the key record 1704 is stored. In step 910 ( 9 ) gives the authentication server 126 Return a machine-bound passport record to the content playback device. A machine-bound passport record is a collection of data that makes up the content playback device 142 can construct a machine-bound passport, such as the passport described above 148B , Such a machine-bound passport record contains, for example, the passport information 2204B ( 24 ) and the signature algorithm 2206 and the signature 2208 , After step 910 ( 9 ) processing according to the logic flowchart 900 completed.
Returning to the test step 904 , processing goes on when using the hardware identifier 140 ( 1 ) linked key pair already in the certificate database 124 is present, to the test step 912 ( 9 ) in which a policy decision is implemented. The policy determines whether it can be allowed to reissue keys associated with the existing machine-bound passport. It is possible for a user to lose a machine-bound passport, such as accidental deletion or data loss due to a hardware failure. In addition, if reissue of machine-bound keys is permitted, the number of such reissues may be limited. For example, one such limitation in the field is Restart Output 1910 ( 19 ). In one embodiment, a limit of zero indicates that the machine-bound keys can not be reissued. In this embodiment, the field stores reissue limit 1910 Data with a value of one to indicate that the machine-bound keys can only be reissued once. If the policy determines that these keys should not be reissued, for example because the keys are not reissued, or because the certificate database 124 indicates that the maximum number of reissues allowed for this machine-bound passport has been executed, processing moves to step 914 ( 9 ) above. In step 914 an error is returned instead of a machine-bound passport record. Conversely, if the policy is allowed to reissue, processing moves to 916 above. The policy may allow such reissue if the reissue is generally allowed and the certificate database 124 indicates that less than the maximum allowed number of reissues has been performed. In one embodiment, the authentication server determines 126 the number of reissued keys of the key record 1704 ( 17 ) by searching for and counting history records, such as the history record 1706 in the certificate database 124 which represents such a reissue. The history record 1706 Represents a reissue of the keys of the key record 1704 represents if the serial number 2002 ( 20 ) of the serial number 1902 ( 19 ) and the field activity 2006 indicates an event of a reissue.
In step 916 calls the authentication server 126 the secret / public key pair associated with the received hardware identifier, eg the key pair of the key record 1704 that with the hardware identifier 140 is linked from the certificate database 124 and forms in the manner described above a machine-bound passport record from the retrieved pair. In step 918 updates the authentication server 126 the certificate database 124 to reflect the additional outputs of the keys associated with the received hardware identifier. In this illustrative embodiment, the authentication server detects 126 such a reissue by creating a new history record, eg the history record 1706 , where the serial number 2002 ( 20 ) of the serial number 1902 ( 19 ) corresponds to the key record, and the field activity 2006 represents a reissue event. The processing goes from step 918 to step 910 where the passport record is returned in the manner described above. After step 910 the processing becomes according to the logic flowchart 900 completed.
The logical flowchart 1000 ( 10 ) illustrates the processing of passports while accessing purchased content. In the context of 10 - 16 becomes a particular content of acquired content 144 is selected for playback by the user, and this content is sometimes referred to as the selected acquired content. In the test step 1002 ( 10 ) determines the In stop reproducing apparatus 142 whether a full-passport exists. If not, the processing goes to test step 1008 which will be described more fully below. Conversely, if a full passport exists, processing moves to step 1004 over in which the content playback device 142 authenticated the user by providing a password provided by the user in the manner described above with reference to the steps 704 ( 7 ) and 706 is checked. After the user has been authenticated, the content playback device tries 142 in step 1006 ( 10 ) to play the selected content using the user-bound full passport that was in the test step 1002 has been located.
In the test step 1008 detects the content playback device 142 whether a machine-bound passport exists. If not, there is no passport and the processing goes to the dialogue step 1016 above. On the other hand, if there is a machine-bound passport, processing will go to step 1010 about where the content playback device 142 in the manner described above with reference to the steps 712 ( 12 ) and 714 checked that the hardware identifier 140 matches the machine-bound passport. When the step 1010 leads to a verification error, ie if the hardware identifier 140 does not correspond to the machine-bound passport, the processing goes to the dialogue step 1016 via, which is described below. Conversely, if the verification succeeds, processing moves to step 1006 above.
In step 1006 tries the content playback device 142 to play the selected content. In the test step 1012 detects the content playback device 142 whether the attempted playback is successful, ie, whether the Passport key successfully decodes the selected content. Such determination is made in the manner described above with reference to the steps 706 ( 7 ) and 714 ,
If the selected Passport key successfully decrypts the selected content, processing moves to step 1014 about where the content playback device 142 continues to play the selected content. In step 1014 are the user and / or the client computer system 104 has been authenticated as authorized to access the selected content.
On the other hand, if the selected Passport key can not successfully decrypt the selected content, processing proceeds to the dialog step 1016 above. Consequently, the processing goes to the dialogue step 1016 about when from the content playback device 142 no passport has been detected (via test step 1008 ), if the hardware identifier 140 does not correspond to the machine-bound passport coming from the content playback device 142 has been located (from step 1010 ) or if the selected Passport key can not successfully decrypt the selected content (via check step 1012 ). In the dialogue step 1016 the content playback device notifies the user that the user is not authorized to play the selected content and asks the user if he would like to be authorized to do so.
If the user answers in the negative, the processing goes to step 1020 about where the content playback device 142 returns an error and stops processing. Conversely, if the user answers in the affirmative, processing moves to step 1018 in which a new passport is created for the selected content and moves to step 1014 in which the content playback device 142 continues to play the selected content.
The step 1018 becomes a logical flowchart in more detail 1018 ( 11 ). In step 1102 calls the content playback device 142 a content certificate from the selected content. The content certificate is a digital certificate, such as a digital ITU-T X.509 certificate, included in the selected content, identifying who originally purchased the content. The certificate 2100 ( 21 ) is an illustrative example of such a certificate and has been described more fully above. In this illustrative embodiment, the content playback device calls 142 the certificate serial number, eg the certificate serial number 2102 , starting with which the authentication server 126 ( 1 ) the certificate 2100 in the certificate database 124 can locate. In the test step 1104 ( 11 ) detects the content playback device 142 whether the user has a full passport. The content playback device 142 may make such a determination based on the presence of a full passport, as in step 1001 ( 10 ), or due to the failure of the user, any existing full-passport in step 1004 to authenticate. In addition, the user may be prompted for a name and e-mail address, and the user's responses thereto may be used to search for account records, such as the account record 1702 ( 18 ), which name a corresponding field 1804 and field e-mail address 1806 having. If the user has a full-passport, the processing goes to step 1106 ( 11 ) in which the content playback contraption 142 request a passport for the selected purchased content using the user's full passport information, including the secret user information 2306 ( 23 ). If the user does not have a full passport, processing will go to step 1114 ( 11 ) in which the content playback device 142 request a passport for the selected content using the hardware identifier 140 , In this embodiment, the user has the opportunity to provide some personal information, such as a name, e-mail address and country of residence, and this information may be the hardware identifier 140 when requesting a new passport in step 1114 accompany.
The processing by the authentication server 126 in response to requirements of the steps 1106 and 1114 is in each case in conjunction with the 13 and 12 described. In response to the request of step 1106 ( 11 ) can be the authentication server 126 send a full passport record or an error message. In response to the request of step 1114 can be the authentication server 126 send a machine-bound passport or an error message.
In the test step 1108 detects the content playback device 142 whether a full-passport record from the authentication server 126 is returned. If not, an error is returned and the processing according to the logical flowcharts 1018 and 1000 will be terminated. Conversely, if a full passport is returned, processing moves to 1110 above.
In step 1110 protects the content playback device 142 the full passport information of the full passport record with a user provided password in the manner described above with reference to the generator 504 for full passports ( 5 ) has been described.
The processing goes from step 1110 ( 11 ) to step 1112 about where the content playback device 142 a full passport 148A ( 3A ) from the full passport information created by the authentication server 126 be received.
The processing goes from step 1114 to the test step 1116 above. In the test step 1116 detects the content playback device 142 whether the data is from the authentication server 126 in response to the request from step 1114 or step 1116 receive a machine-bound passport. If so, creates the content playback device 142 a machine-bound passport, such as the Passport 148B ( 3B ), using the machine-bound passport record, and processing according to the logic flow diagram 1018 and thus the step 1018 ( 19 ) will be terminated.
If the other way is from the authentication server 216 If the returned data does not represent a machine-bound passport record, processing passes to the test step 1120 above. In the test step 1120 detects the content playback device 142 whether the answer is through the authentication server 126 indicates that the user needs a full passport in order to be properly authenticated in order to access the selected purchased content. If not, the user can not be authenticated to access the acquired content and the content playback device 142 notices that an error has occurred and reports the error to the user, causing the processing according to the logic flow diagram 1018 and thus the step 1018 ( 10 ) is terminated. If, on the other hand, the response from the authentication server 126 indicates that the user needs a full passport, processing moves to 1122 above.
In step 1122 sends the content playback device 142 the authentication server 126 a request for a new passport. The request contains data representing the hardware identifier 140 and specify a certificate obtained from the selected purchased content. The purchased content certificate identifies the selected purchased content in the certificate database 124 ( 1 ). The authentication server 126 responds to such a request in the manner described below with reference to the logic flow diagram 1400 ( 14 ), wherein the content playback device 142 either a full passport record or an error message is sent.
In the test step 1124 detects the content playback device 142 whether the authentication server 126 returns a full passport record or an error. If an error is returned, the user can not be authenticated to access the acquired content and the content playback device 142 notices that an error has occurred and reports the error to the user, causing the processing according to the logic flow diagram 1018 and thus the step 1018 ( 10 ) is terminated. If, on the other hand, the response from the authentication server 126 is a full passport record, processing goes to step 1126 ( 11 ) in which the content playback device 142 asks the user to enter a password.
The processing goes from the step 1126 to the step 1112 about where the content playback device 142 the full passport 148A ( 3A ) from the full passport information created by the authentication server 126 were received. After the step 1122 ( 11 ), whether over step 1110 or step 1126 , the processing according to the logic flowchart 1018 and thus the step 1018 ( 10 ) completed.
As described above, the authentication server responds 126 to a request for a passport including a hardware identifier in the way they are in the logic flow diagram 1200 ( 12 ) is shown. In particular, the logical flowchart represents 1200 the answer of the authentication server 126 to the request made by the content playback device 142 in step 1114 ( 11 ) in which the user did not have a full passport. Accordingly, the authentication server 126 prompted to reissue the same machine-bound passport to which the selected content should already be bound. In step 1202 ( 12 ) calls the authentication server 216 the certificate for the selected content from the certificate database 124 from. For example, if the content playback device 142 - as the certificate of the selected content - the certificate serial number 2101 ( 21 ), the authentication server calls 126 the certificate 2100 from the certificate database 124 ( 17 ).
In the test step 1204 ( 12 ) determines the authentication server 126 whether the purchased content is bound to a machine-bound passport. The authentication server 126 makes such a determination by retrieving an account record, eg the account record 1702 ( 18 ), which corresponds to the certificate. The authentication server 126 can locate such an account record by searching for account records with the appropriate name data values 1804 , E-mail address 1806 and country 1808 Alternatively, by waiting for a table of records, the certificate serial numbers, such as the certificate serial number 2101 ( 21 ), with serial numbers, such as the serial number 1802 ( 18 ), by checking the field type 1816 the retrieved account record and comparing the data stored therein with data representing a machine-bound type. If the data is in the Art 1816 If so specified, the selected content is bound to a machine-bound passport. Otherwise, the selected content is bound to a full passport.
If the selected content is not bound to a machine-bound passport, the authentication server issues 126 returns an error message indicating that a full-passport is required to access the selected content and stops processing in accordance with the logic flow diagram 1200 , The full passport is required because the selected content is already bound to a user-supplied full passport. Allowing the content to also bind to a new machine-bound passport would allow content to be rendered on many computer systems that are different from those used by the original buying user and would compromise security.
Conversely, if the selected purchased content is bound to a machine-bound passport, processing moves to step 1206 over in which the authentication server 126 retrieves a key record representing the computer system associated with the hardware identifier included in the request from the content playback device 142 was received. In particular, the authentication server calls 126 the key record, eg the key record 1704 ( 19 ), whose hardware identifier record 1914 represents the hardware identifier used by the content playback device 142 was received.
If no such key record is found, processing passes through the checking step 1208 ( 12 ) to the final step 1210 above. In the final step 1210 gives the authentication server 126 returns an error message indicating that the user needs a full-passport to access the selected content. The user needs a full-passport, as that of the content playback device 142 received hardware identifier in the test step 1208 was determined to specify a computer system with which the authentication server 126 not familiar.
If the authentication server 126 the key record but the key record is not the same as the key record in the test step 1204 was retrieved, the processing goes through the test step 1208 and the test step 1212 to the final step 1210 above. The user needs a full-passport because the machine-bound passport request appears to come from a computer system that is different from the one to which the purchased content was originally bound.
If the key record is found, as in the test step 1208 and it is the same as the key record associated with the selected purchased content, as in the test step 1212 determined, the processing goes to Test step 1214 over in which the authentication server 126 implemented a policy decision. In particular, the authentication server determines 126 whether machine-bound keys can be reissued. In this illustrative embodiment, the authentication server takes 126 make such a determination according to the data provided in the Restrict Limits field 1910 ( 19 ) of the key record stored in step 1206 ( 12 ) is retrieved. If the reissue is not allowed, processing moves to the final step 1210 over in which the authentication server 126 returns an error message indicating that the user needs a full-passport to access the selected content. Conversely, if the reissue of machine-bound keys is permitted, processing moves to step 1216 above.
In step 1216 Captures the authentication server 126 the reissue of the key record 1704 ( 19 ) in the certificate database 124 ( 17 ) with a new history record, such as history record 1706 , After step 1216 ( 12 ) gives the authentication server 126 return a machine-bound passport record containing information from the key record 1704 ( 19 ) to the content playback device 142 ( 1 ) in the final step 1218 ( 12 ) contains. The processing is either after the final step 1210 or the final step 1218 according to the logic flow diagram 1200 completed.
As described above, the logic flow diagram represents 1300 ( 13 ) the processing by the authentication server 126 in response to a request for a new passport containing full passport information. In particular, the logical flowchart is steep 1300 the answer of the authentication server 126 to the request made by the content playback device 142 in step 1106 ( 11 ) in which the user already has a full passport and essentially requests to add machine-bound keys to the full passport. In step 1302 ( 13 ) calls the authentication server 126 a certificate for the selected content in the manner described above with reference to step 1202 ( 12 ) has been described. In the test step 1304 ( 13 ) determines the authentication server 126 Whether the content certificate is machine-bound in the manner outlined above with reference to step 1204 ( 12 ) has been described.
If the content certificate is not machine-bound, the authentication server issues 126 an error in the final step 1306 ( 13 ) because the selected content is bound to another user-supplied full-passport, ie, bound to another user. Conversely, if the certificate is machine-bound, processing moves to step 1308 above.
The test step 1308 implements a policy decision in which the authentication server 126 Determines if machine-attached keys can be added to an already existing full-passport. This would happen if, for example, a user had registered for a full passport on a client computer system and registered for a machine-bound passport on another client computer system and wanted to transfer the later acquired content from the latter client computer system to the former , The user would have acquired content tied to two different key groups. If this is not permitted, the processing goes to the final step 1306 over and returns an error. Conversely, if permitted, the processing goes to the checking step 1310 above.
In the test step 1310 implements the authentication server 126 another policy decision, namely, whether that particular full-passport can contain additional keys. In general, full-passports can only hold a limited number of additional keys so that users can collect non-machine-bound keys and content from friends and colleagues without any limitation. In this embodiment, the limit is for passport keys 1912 ( 19 ) a maximum number of keys, that of a passport based on the key record 1704 is recorded. The authentication server 126 compares the number of keys already included in the user's full passport with the limit specified in the passport key limit 1912 is specified to determine if the passport can accommodate additional keys.
If the passport can not pick up any more keys, processing moves to the final step 1306 ( 13 ), in which an error is returned. In the final step 1306 , whether or not via test step 1304 , Test step 1308 or test step 1310 , the processing according to the logic flowchart 1300 completed.
Conversely, if the passport can pick up more keys, processing goes to step 1312 where the key is added to the passport, and the key is added to a new history record in the certificate database 124 added. When adding the key adds the authentication approximately servers 126 another key record 2312 ( 23 ) to the passport. The further key record 2312 contains a key 2314 and a certificate 2316 , The certificate 2316 is the certificate of the content player to which the selected content is already bound and the key 2314 is the secret counter-key. The key 2314 is done using the unencrypted registry key 2308 encrypted - see eg trigger registration key 520 ( 5 ). In one embodiment, such encryption is provided by the content rendering device 142 ( 1 ) after the return of the passport information by the authentication server 126 executed because the content playback device 142 receives the password provided by the user directly. In an alternative embodiment, the authentication server manages 126 the trigger registry key 520 and receives the user-provided password from the content playback device 142 along with the passport request, and thus the authentication server encrypts 126 the key 2314 ( 23 ).
After step 1314 ( 12 ) the processing goes to the final step 1316 over in which the authentication server 126 sends a full passport record and processing according to the logic flow diagram 1300 completed.
The logical flowchart 1400 ( 14 ) provides the response of the authentication server 126 to the request of the content playback device 142 in step 1122 ( 11 ) in which the user does not have a full passport, but requests that a previously acquired machine-bound passport be upgraded to a full passport. The user may explicitly request such promotion, or such promotion may be attempted if a user agrees after attempting to play machine-bound content on a client computer system to which the content was not committed. In step 1402 ( 14 ) generates the authentication server 216 a new full passport with a key to the content. step 1402 is in more detail than the logical flowchart 1402 ( 15 ).
In step 1502 seeks the authentication server 126 for a key record with a hardware identifier 1914 ( 19 ), which corresponds to the hardware identifier used by the content playback device 142 in the request of step 1122 ( 11 ) was received. If none is found, processing goes to step 1504 above.
In step 1504 creates the authentication server 126 a new key pair and forms a new key record, such as the key record 1704 ( 19 ), which represents the new key pair. In step 1506 creates the authentication server 126 a full passport with the keys of the new key record. The authentication server 126 specifically copies the public key 1906 ( 19 ) and the validity dates 1908 of the newly created key record 1704 each in the public key 2320 ( 23 ) and the validity dates 2322 , The authentication server 126 creates a new certificate serial number 2324 and sign the certificate 2302 to the signature 2326 to build. The authentication server 126 copies the secret key 1904 ( 19 ) in the secret key 2304 ( 23 ). In this embodiment, the secret key becomes 1904 by the content playback device 142 ( 1 ) in step 1010 ( 10 ) protected as described above. In addition, the secret user information 2306 ( 23 ) left empty from the content playback device 142 to be completed. The authentication server 126 creates a new registry key 2308 and a new random number 2310 , The content playback device 142 protects the registry key 2308 in step 1010 ( 10 ) as described above.
Returning to the test step 1502 if the processing finds a key record corresponding to the received hardware ID, the processing goes to the checking step 1508 over who implements a policy decision. The test step 1508 specifically implements the same policy decision by the verification step 1308 ( 13 ) - that is, whether a full-passport can contain machine-bound keys. If the authentication server 126 determines that a full-passport can not record machine-bound keys, the processing goes to the final step 1510 over in which the authentication server 126 returns an error and processing according to logical flowcharts 1402 and 1400 ( 14 ) completed. Conversely, if the full-passport can pick up machine-bound keys, processing moves to step 1512 ( 15 ) above.
In step 1512 Captures the authentication server 126 the output of the keys of the key record, in the test step 1502 located in a new history record in the certificate database 124 , In step 1514 creates the authentication server 126 a full passport with the keys of the machine-bound key record. step 1514 is a step described above 1506 analogous step, except that the key sel record 1704 in step 1514 not recreated. Instead, the key record is 1704 the key record in the test step 1502 was found.
Either after step 1506 or step 1514 is the processing according to the logic flow diagram 1401 and with it the step 1402 ( 14 ) completed. In step 1404 uses the authentication server 126 the received hardware identifier and content information for generating the new full-passport. step 1404 is in more detail as a logical flowchart 1404 ( 16 ).
In the test step 1602 determines the authentication server 126 Whether a certificate for selected content from the content playback device 142 along with the requirement of step 1122 was received. If the user explicitly requests an upgrade of their passport from machine bound to user connected without requesting the replay of a particular content, the authentication server would 126 received request does not contain a content certificate. However, if the request is about step 1122 ( 11 ), in which the promote request is in response to an attempt to render the content on a first client computer system when the content is bound to a second client computer system, the request containing the certificate of the content being attempted to render has been.
If no content certificate in the request from the content playback device 142 is included, the processing goes to the step 1604 ( 16 ), in which the full-passport information provided in step 1506 ( 15 ) or step 1514 were generated to be returned. The processing according to the logic flow diagram 1402 ( 16 ) and thus the step 1404 ( 14 ) are after the step 1604 ( 16 ) completed.
On the other hand, if a content certificate in the request from the content playback device 142 is included, the processing goes to the test step 1606 above. In step 1601 determines the authentication server 126 whether the hardware identifier used by the content playback device 142 received matches the content certificate. If so, the user requests a promotion from the machine to which its content is bound, and processing goes to step 1604 above, in which the full-passport information provided in step 1506 ( 15 ) or step 1514 have been created. Conversely, if the received hardware identifier and the content certificate do not match, processing transfers to the checking step 1610 above.
In test step 1610 implements the authentication server 126 a policy decision, namely, whether machine-bound keys can be issued to a full-passport. This is the same as the policy decision of test step 1508 , If machine-bound keys can not be issued to a full-passport, an error is returned and processing according to the logical flowcharts 1404 and 1400 ( 14 ) will be terminated. Conversely, if machine-bound keys can be added to the full-passport, processing transfers to the checking step 1612 above.
In the test step 1612 implements the authentication server 126 Another policy decision, namely, whether this passport can accommodate more keys. This is the same as the policy decision of test step 1310 , If the full-passport can not pick up any more keys, an error is returned and processing is done according to the logical flowcharts 1404 and 1400 ( 14 ) will be terminated. Conversely, if the full-passport can pick up more keys, processing goes to step 1614 ( 16 ) above.
In step 1614 records the authentication server 126 the inclusion of the machine-bound keys in the full-passport in the certificate database 124 in the same way as before in step 1312 ( 13 ) has been described. In step 1616 adds the authentication server 126 Add the keys from the content certificate to the Full Passport. For example, if the certificate 2100 ( 21 ) represents the content certificate, the authentication server stores 126 the certificate 2100 as the certificate 2316 ( 32 ), and stores the associated secret key 1904 of the associated key record as the key 2314 ( 23 ).
After step 1614 ( 16 ) the processing goes to the step 1604 above, in which the full-passport information provided in step 1506 ( 15 ) or step 1514 were created with the extra keys of step 1616 ( 16 ) and the processing according to the logic flowcharts 1404 and 1400 ( 14 ) will be terminated.
On this way, a machine-bound passport becomes a user-bound passport Converts in a secure manner, which is relatively convenient for the user is, and without any re-encrypting or otherwise modifying the bound data is required.
Secure connection between the authentication server and the content playback device
As briefly described before, the authentication server ( 1 ) and the content playback device 142 over a secure connection through a wide area network 106 , In one embodiment, the known connection type is Secure Sockets Layer (SSL) for secure communication between the authentication server 126 and the content playback device 142 used.
In an alternative embodiment, the authentication server communicate 126 and the content playback device 142 together in a cryptographically secure session, which is easier than the SSL protocol. The content playback device 142 sends a request message to the authentication server 126 to the certificate of the authentication server 126 to obtain. The content playback device 142 Encrypts your registration information with the public key of the authentication server 126 , so only the authentication server 126 can decrypt the registration information. The authentication server 126 returns the information necessary to passport the content playback device 142 to create. The information is encrypted using a key derived from the registration information provided by the content rendering device 142 be provided so that only the content playback device 142 can decrypt the passport information.
The The above description is only illustrative and not restrictive. The The present invention is limited only by the following claims.
A method of converting machine-bound data into user-linked data, the method comprising: binding the content data to one or more hardware devices using encryption key (s) using one or more bind keys related to the one or more hardware devices one or more plain-text keys ( 304 ) using hardware identification data ( 140 ) as an encryption key to store the one or more binding keys ( 2404 ), the hardware identification data corresponding to the one or more hardware devices; characterized in that the method further comprises: transforming the one or more bindkeys to generate the one or more plaintext keys such that the one or more plaintext keys are independent of the one or more plaintext keys; to the plurality of hardware devices by: decrypting the one or more bind keys using the hardware identification data to generate the one or more plaintext keys; the one or more plaintext keys are bound to a user to store one or more user-assigned keys ( 2304 ) by: requesting that the user enter a password before allowing use of the user-associated keys to access the content data, and by using the password as one encryption key, the one or more plain-text keys be encrypted so that the user must provide a decryption key to decrypt the user-bound keys and to produce the plain-text keys, thus allowing access to the content data.
The method of claim 1, wherein binding to the User includes: Link private information of the user with the content data, so that the reproduction of the content data the display of the private user information causes.
The method of claim 1, further comprising: Determine, that an existing data structure the user at others Content binds; where binding to the user includes: Include the user-linked keys as one or more additional key into the data structure.
The method of claim 1, wherein converting and binding be performed on the user in response to detection of a condition where the user plays the content data in a system does not request the one or more hardware devices contains.
DE2000616972 1999-12-20 2000-10-11 Adaptable safety mechanism to prevent unlawful access to digital data Active DE60016972T2 (en)
US468279 1999-12-20
US09/468,279 US6792113B1 (en) 1999-12-20 1999-12-20 Adaptable security mechanism for preventing unauthorized access of digital data
PCT/US2000/028205 WO2001046786A1 (en) 1999-12-20 2000-10-11 Adaptable security mechanism for preventing unauthorized access of digital data
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DE2000616972 Active DE60016972T2 (en) 1999-12-20 2000-10-11 Adaptable safety mechanism to prevent unlawful access to digital data
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