US20050246284A1 - Digital record carrier and method for use of same to inhibit copying using decryption code or key from remote depository - Google Patents
Digital record carrier and method for use of same to inhibit copying using decryption code or key from remote depository Download PDFInfo
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- US20050246284A1 US20050246284A1 US11/159,525 US15952505A US2005246284A1 US 20050246284 A1 US20050246284 A1 US 20050246284A1 US 15952505 A US15952505 A US 15952505A US 2005246284 A1 US2005246284 A1 US 2005246284A1
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- Prior art keywords
- record carrier
- digital record
- key
- content
- code
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- 238000012544 monitoring process Methods 0.000 claims description 5
- 238000003780 insertion Methods 0.000 claims description 3
- 230000037431 insertion Effects 0.000 claims description 3
- 238000009434 installation Methods 0.000 claims description 2
- 238000007726 management method Methods 0.000 description 12
- 230000006870 function Effects 0.000 description 6
- 238000010586 diagram Methods 0.000 description 4
- 230000008901 benefit Effects 0.000 description 3
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- BQCADISMDOOEFD-UHFFFAOYSA-N Silver Chemical compound [Ag] BQCADISMDOOEFD-UHFFFAOYSA-N 0.000 description 1
- 206010000210 abortion Diseases 0.000 description 1
- 230000004075 alteration Effects 0.000 description 1
- 239000000969 carrier Substances 0.000 description 1
- 238000001514 detection method Methods 0.000 description 1
- 230000003287 optical effect Effects 0.000 description 1
- 230000002093 peripheral effect Effects 0.000 description 1
- 230000004044 response Effects 0.000 description 1
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- 239000004332 silver Substances 0.000 description 1
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Classifications
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B20/00—Signal processing not specific to the method of recording or reproducing; Circuits therefor
- G11B20/00086—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F21/00—Security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
- G06F21/10—Protecting distributed programs or content, e.g. vending or licensing of copyrighted material ; Digital rights management [DRM]
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q20/00—Payment architectures, schemes or protocols
- G06Q20/38—Payment protocols; Details thereof
- G06Q20/40—Authorisation, e.g. identification of payer or payee, verification of customer or shop credentials; Review and approval of payers, e.g. check credit lines or negative lists
-
- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B7/00—Recording or reproducing by optical means, e.g. recording using a thermal beam of optical radiation by modifying optical properties or the physical structure, reproducing using an optical beam at lower power by sensing optical properties; Record carriers therefor
- G11B7/28—Re-recording, i.e. transcribing information from one optical record carrier on to one or more similar or dissimilar record carriers
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S707/00—Data processing: database and file management or data structures
- Y10S707/99931—Database or file accessing
- Y10S707/99939—Privileged access
Definitions
- the invention generally relates to copy protection and more particularly to a method to prevent illicit copying of software from record carriers to computer-readable data storage drives.
- CDs Compact Disc
- CD-ROM Compact Disc
- CD-R Compact Disc
- CD-RW Compact Disc
- CD-DA Compact Disc
- CD-I Compact Disc
- CD-I Code Division Multiple Access
- CDs are subject to no mechanical wear and tear and are therefore very reliable.
- CDs have become the preferred portable data storage format in recent years.
- software products e.g., application software, video games, etc.
- software and video game publishers lose billions of dollars worldwide to product piracy each year. While most CD-ROM software piracy losses are attributable to counterfeiting by professional pirates, with the availability of CD Recordable (CD-R) drives at an affordable price, the average consumers can now make perfect copies of CD-ROM originals for the price of a blank disc.
- This anti-copy solution involves encrypting the executable file of the application (i.e., CD-ROM's software content) according to a production key and embedding a digital signature corresponding to the production key onto the CD-ROM during manufacturing.
- the hidden digital signature can only be detected using special authentication software provided with the CD-ROM at boot-up.
- information in the digital signature is used as a key to decrypt the encrypted executable file of the software content thereby allowing the application to launch. If the digital signature is not detected, the encrypted executable file of application cannot be decrypted for launch.
- the digital signature is designed so that it cannot be copied.
- a copy protected CD-ROM is copied to another CD or to a computer-readable storage drive (e.g., computer hard drive)
- the digital signature cannot be transferred to the copied CD or storage drive thereby preventing the copied application from being launched.
- a copied CD is essentially useless.
- the digital signature is not transferred to a computer-readable data storage device when the content of a copy-protected CD-ROM is copied into the storage device
- the copied application can still be launched as long as the copy-protected CD-ROM remains in the CD-ROM drive because the digital signature residing in the copy-protected CD-ROM can still be detected and authenticated.
- a rights-owner is defined as someone who is the rightful owner of the copy-protected CD-ROM.
- the ability of the rights-owner to copy the content of the copy-protected CD-ROM into his computer-readable data storage device is basically preserved because, as the rights-owner, he is assumed to have the copy-protected CD-ROM readily available nearby.
- the use of the CD-ROM drive may not be utilized by other applications. At the very least, this is an inconvenience. At worst, this prevents the rights-owner from concurrently using multiple applications that are copy-protected. Such inconvenience is exacerbated for laptop users because they are now required to bring along the application software CD-ROMs while traveling.
- software publishers are torn between the desire to protect their intellectual property and the desire to supply the consumers with user-friendly products. In this difficult position, the software publishers are faced with either lost revenue from the illicit copying of their products or lost revenue from losing market share.
- the present invention provides an improved method to discourage illicit copying of a copy-protected CD-ROM into a computer-readable data storage device without requiring the copy-protected CD-ROM to be inserted in the CD-ROM drive to successfully launch the copied application from the data storage device.
- the present invention meets the above need with a method to discourage illicit copying from a digital record carrier to a computer-readable data storage device.
- the content of the digital record carrier is encrypted.
- determination is made as to whether a predetermined time interval has lapsed since the digital record carrier was last inserted for use. If the predetermined time interval has not lapsed, the content of the digital record carrier that has been installed onto the computer-readable data storage device is decrypted into a random access memory thereby allowing the copied content to launch for use. Otherwise, if the predetermined time interval has lapsed, the content of the digital record carrier that has been installed onto the computer-readable data storage device is prevented from being decrypted thereby not allowing the copied content to launch for use. Under the present invention, re-inserting the digital record carrier resets the predetermined time interval.
- FIG. 1 is a diagram illustrating an exemplary CD-ROM 100 that is copy-protected in accordance with the present invention.
- FIG. 2 is a block diagram illustrating, as an example, computer system 200 upon which the present invention may be practiced.
- FIG. 3 is a chart illustrating the functions that the executed installer instructions 110 perform when copy-protected CD-ROM 100 is inserted into CD drive 209 for the first time.
- FIG. 4 is a flow chart of the steps performed by license management system 320 .
- FIG. 5 is a flow chart of the steps performed by executed filter instructions 120 .
- CD-DA CD-Digital Audio
- CD-R CD-Recordable
- CD-RW CD-Rewritable
- DVD Digital Versatile Disc
- the Central Processor Unit executes the installer instructions residing in the CD-ROM to automatically copy the encrypted application (i.e., encrypted main application software) into the hard disk drive and to install a license management system that is used to control license management and to detect the authentic copy-protected CD-ROM.
- the content of the CD-ROM e.g., the executable file of the application and other relevant files are encrypted.
- the license management system Upon completing the installation phase, when the user attempts to launch the encrypted copied application residing in the hard drive at any time prior to the expiration of the predetermined time interval, the license management system readily supplies the key to enable a filter to decode the encrypted copied application thereby allowing the application to launch. Following the expiration of the predetermined time interval or if the inserted CD-ROM cannot be authenticated, the license management system withholds the key therefore not allowing the copied application to be decrypted and successfully launched. When prompted by the shell, the predetermined time interval can be reset by reinserting the copy-protected CD-ROM into the CD drive to reset the time interval.
- the present invention makes the CD drive available to the rights-owner (i.e., the CD-ROM owner) for other applications while the application copied from the copy-protected CD-ROM is running.
- the present invention also allows portable computer users to not having to carry all of their copy-protected CD-ROMs on the road.
- the copy-protected CD-ROM is regularly required nearby thereby discouraging the illicit copying of a copy-protected CD-ROM into a hard drive of someone other than the rights-owner. This is because it is a major inconvenience of the illicit copier to keep borrowing the copy-protected CD-ROM from the rights-owner.
- the key can be obtained through a remote transaction via the Internet, the telephone, email, fax, etc.
- the user can communicate with a known remote central depository, maintained by the software publisher or developer to obtain a key in exchange for some information (e.g., a password) to decrypt the copied application thereby allowing it to be launched for use.
- a known remote central depository maintained by the software publisher or developer to obtain a key in exchange for some information (e.g., a password) to decrypt the copied application thereby allowing it to be launched for use.
- some information e.g., a password
- the alternate embodiment which also allows the rights-owner to enjoy most if not all of the benefits provided by the present invention as discussed above, is desirable especially if the original CD-ROM is not available (e.g., misplace) or if a directly connected CD-ROM drive is temporarily unavailable.
- copy-protected CD-ROM 100 stores at least installer instructions 110 (not shown) and filter instructions 120 (not shown) that are needed to prevent illicit copying of CD-ROM 100 into a hard disk drive.
- installer instructions 110 not shown
- filter instructions 120 not shown
- copy-protected CD-ROM 100 may further include embedded digital signature 130 (not shown) and authentication instructions 140 (not shown).
- digital signature 130 is added to the Glass Master with the software publisher's content (e.g., application) already in place using a Laser Beam Recorder (LBR) by a mastering facility or replicator using the Master Interface Software (MIS) developed by Doug Carson Associates (DCA).
- LBR Laser Beam Recorder
- MIS Master Interface Software
- DCA Doug Carson Associates
- Digital signature 130 is hidden and can only be detected using executed authentication instructions 140 . Upon detecting and authenticating digital signature 130 , information in digital signature 130 is used as a key to decrypt the encrypted executable file of the software content thereby allowing the application to launch. If digital signature 130 is not detected, the encrypted executable file of application cannot be decrypted for launch. Digital signature 130 is designed so that it cannot be copied. In other words, when copy protected CD-ROM 100 is copied to another CD or to a computer-readable storage drive (e.g., computer hard drive), the digital signature cannot be transferred to the copied CD or storage drive thereby preventing the encrypted copied application from being launched.
- a computer-readable storage drive e.g., computer hard drive
- a license file storing the decryption key/code derived from digital signature 130 is used to provide the decryption key/code to launch a copied application in a hard disk drive.
- license file and other components relevant to the present invention are discussed in greater detail below.
- FIG. 2 illustrating a block diagram of exemplary computer system 200 upon which the present invention may be practiced.
- computer system 200 is exemplary only and that the present invention can operate within a number of different computer systems and computerized devices including general-purpose computer systems and others.
- certain processes and steps are realized as a series of instructions (e.g., software program) that reside within computer readable storage devices and memory units of system 200 and executed by processor 201 .
- computer system 200 upon which the present invention is practiced comprises address/data bus 212 for conveying information and instructions, central processor 201 coupled with bus 212 for processing information and instructions, a random access memory (RAM) 202 for storing digital information and instructions, a read only memory (ROM) 203 for storing information and instructions of a more permanent nature.
- computer system 200 further include hard disk drive 204 for storing vast amounts of data such as the data copied from a CD-ROM, a CD drive 209 for reading copy-protected CD-ROM 100 in accordance with the present invention, I/O interface 208 for interfacing with peripheral devices (e.g., computer network, modem, etc.).
- peripheral devices e.g., computer network, modem, etc.
- computer system 200 may include display device 205 for displaying information to a computer user, an alphanumeric input device 206 (e.g., keyboard), and a cursor control device 207 (e.g., mouse, trackball, lightpen, etc.) for communicating user input information and command selections.
- display device 205 for displaying information to a computer user
- alphanumeric input device 206 e.g., keyboard
- cursor control device 207 e.g., mouse, trackball, lightpen, etc.
- Installer instructions 110 may be an executable file.
- the encrypted application i.e., encrypted main application software
- the executed installer instructions 110 also install license management system 320 onto the hard disk drive 204 .
- license management system 320 is designed to control license management and to detect an authentic copy-protected CD-ROM.
- License management system 320 may be an executable file that is executed by central processor 201 whenever a user attempts to launch the copy-protected application software.
- FIG. 4 illustrating a flow diagram of the license management system 320 .
- central processor 201 executes shell program 330 to determine whether a correct copy-protected CD-ROM (e.g., a CD-ROM whose identification number matches the application software content in the CD-ROM) is in CD drive 209 (step 410 ). If a correct copy-protected CD-ROM cannot be ascertained, shell program 450 (not shown) prompts for the correct CD-ROM (step 413 ) before continues the monitoring.
- a correct copy-protected CD-ROM e.g., a CD-ROM whose identification number matches the application software content in the CD-ROM
- executed shell program 450 determines whether a valid license file 460 (not shown) has already been created for CD-ROM 100 carrying the application software (step 415 ). If license file 420 has already existed, executed shell program 450 updates the information in license file 460 (step 420 ). Otherwise, if license file 460 has not been created, executed shell program 450 creates a new license file 460 in hard disk drive 204 (step 425 ).
- License file 420 is essentially a data file that includes the value of the predetermined time interval, the time and date when copy-protected CD-ROM 100 was last inserted into CD-ROM drive 209 , the present time and date, the identity of the software product in copy-protected CD-ROM 100 , the software product's protection information, and others.
- CD-ROM 100 is first inserted into hard disk drive 204 , the time and date at that moment is recorded in license file 420 as the time and date when CD-ROM 100 was last inserted.
- the installer instructions update the time and date when CD-ROM 100 was last inserted. In the preferred embodiment, the present time and date is updated every 20 minutes.
- the main function of the license file is to monitor the time duration since copy-protected CD-ROM 100 was last inserted into CD-ROM drive 209 .
- the license file is also encrypted to prevent unauthorized access to the predetermined time interval and/or the present time and date.
- the exact encryption method employed is not important as long as its identity is kept confidential from hackers for security reasons. This is so because access to the aforementioned information means that the information may be altered to defeat the copy-protected aspect of the present invention.
- the predetermined time interval, the time and date when CD-ROM 100 was last inserted, and/or the present time and date can be changed to fool the system into thinking that the time interval has not expired.
- the identity of the software product may be a code name or number and is used to ensure that the proper CD-ROM is inserted before access to the license file is allowed for alteration.
- product protection information is a decryption code/key used in decrypting the application.
- decryption code/key is derived from digital signature 130 that was embedded in CD-ROM 100 during manufacturing.
- authentication instruction 140 which may be an executable file, during the detection and authentication process, it is passed to shell program 450 to record into the license file as the decryption code/key.
- the code/key can be obtained through a remote transaction via the Internet, the telephone, email, fax, etc.
- the user can communicate with a known remote central depository, maintained by the software publisher or developer to obtain a code/key in exchange for some information (e.g., a password) or a license fee to use in decrypting the copied application thereby allowing it to be launched for use.
- a known remote central depository may be a key computer server connecting to the World Wide Web if the transaction is an Internet transaction.
- Such remote central depository may also be a data base operated by a service operator if the transaction is a manual one that involves the use of telephone, email, fax, etc.
- the executable file of the software application is encrypted prior to manufacturing of CD-ROM 100 .
- the copied application cannot be launched from the hard disk drive unless a valid license file is present in order to allow the application to be decrypted.
- decryption is allowed only if the set time interval has not expired.
- decryption is carried out using filter instructions 120 which may be an executable file.
- encrypted files are decrypted by executing filter instructions 120 to perform as an operating system filter into RAM 202 (not hard disk drive 204 ). As such, the decryption is performed on in real time. In other words, the parts of an encrypted file are decrypted as the operating system requests it.
- Filter instructions 120 are enabled to decrypt only if the set time interval has not expired. Preferably, filter instructions 120 are enabled in response to the decryption code/key that is provided by the license file.
- the license management system makes available the decryption code/key only if the set predetermined time interval is not yet expired (step 430 ). Otherwise, if the time interval has already expired, the license management system does not make available the decryption code/key to the filter but rather prompts the user to re-insert copy-protected CD-ROM 100 by going back to step 413 .
- Filter instructions 120 may be installed from CD-ROM 100 onto hard disk drive 204 . When enabled by the decryption code/key and executed by central processor 201 , filter instructions 120 decrypt the encrypted executable file for the application.
- filter instructions 120 monitor the input to determine whether the decryption code/key from the license file has been received. If the decryption code/key has not been received, filter instructions 120 continue to monitor the input. Otherwise, the decryption code/key has been received, filter instructions compare the code/key received with an internal stored code/key to determine whether there is a match (step 510 ). If there is no match indicating an error condition (e.g., someone may have tampered with the license file, etc.), filter instructions 120 reject the encryption code/key and aborts the effort to decrypt the encrypted executable file of the application (step 515 ).
- an error condition e.g., someone may have tampered with the license file, etc.
- filter instructions 120 perform the reverse of the encrypted steps that were carried out to encrypt the executable file of the application (step 520 ). Because the software developers were the ones who encrypted the application, they know the encrypted steps. Accordingly, decrypted steps to basically reverse to process can easily be implemented into filter instructions 120 . As an example, a simplistic encryption of the executable file of the application may involve inverting the binary values of the executable file. Hence, to decrypt the encrypted executable file simply involves inverting the binary values of the encrypted executable file back to their original values.
- the implementation of filter instructions 120 to perform the aforementioned functions using system facilities available on computer system 200 should be obvious to a person of ordinary skill in the art. Hence, specific detail of such implement is not further discussed for brevity and simplicity sake.
Abstract
Description
- The invention generally relates to copy protection and more particularly to a method to prevent illicit copying of software from record carriers to computer-readable data storage drives.
- Despite its compact size, each Compact Disc (CD) in its many forms (e.g., CD-ROM, CD-R, CD-RW, CD-DA, CD-I, etc.) can be used to store enormous amounts of data (i.e., 650 MB) including audio, text, software codes, graphics, etc. In addition, CDs are subject to no mechanical wear and tear and are therefore very reliable. As a result, CDs have become the preferred portable data storage format in recent years. Indeed, software products (e.g., application software, video games, etc.) are currently distributed by software publishers almost exclusively on CD-ROM format. However, it is estimated that software and video game publishers lose billions of dollars worldwide to product piracy each year. While most CD-ROM software piracy losses are attributable to counterfeiting by professional pirates, with the availability of CD Recordable (CD-R) drives at an affordable price, the average consumers can now make perfect copies of CD-ROM originals for the price of a blank disc.
- One effective solution to the problem of unauthorized (illicit) software copying is provided by Macrovision Corporation of Sunnyvale, Calif. through its C-dilla Subsidiary. This anti-copy solution involves encrypting the executable file of the application (i.e., CD-ROM's software content) according to a production key and embedding a digital signature corresponding to the production key onto the CD-ROM during manufacturing. The hidden digital signature can only be detected using special authentication software provided with the CD-ROM at boot-up. Upon detecting and authenticating the digital signature, information in the digital signature is used as a key to decrypt the encrypted executable file of the software content thereby allowing the application to launch. If the digital signature is not detected, the encrypted executable file of application cannot be decrypted for launch. The digital signature is designed so that it cannot be copied. In other words, when a copy protected CD-ROM is copied to another CD or to a computer-readable storage drive (e.g., computer hard drive), the digital signature cannot be transferred to the copied CD or storage drive thereby preventing the copied application from being launched. Hence, a copied CD is essentially useless.
- On the other hand, although the digital signature is not transferred to a computer-readable data storage device when the content of a copy-protected CD-ROM is copied into the storage device, the copied application can still be launched as long as the copy-protected CD-ROM remains in the CD-ROM drive because the digital signature residing in the copy-protected CD-ROM can still be detected and authenticated. By requiring the copy-protected CD-ROM to remain in the CD-ROM drive for the copied application in the storage device to be able to launch, illicit copying of a copy-protected CD-ROM into a storage device of someone other than the rights-owner is prevented. A rights-owner is defined as someone who is the rightful owner of the copy-protected CD-ROM. At the same time, the ability of the rights-owner to copy the content of the copy-protected CD-ROM into his computer-readable data storage device is basically preserved because, as the rights-owner, he is assumed to have the copy-protected CD-ROM readily available nearby. However, by requiring the copy-protected CD-ROM to be inserted into the CD-ROM drive each time to launch the copied application, the use of the CD-ROM drive may not be utilized by other applications. At the very least, this is an inconvenience. At worst, this prevents the rights-owner from concurrently using multiple applications that are copy-protected. Such inconvenience is exacerbated for laptop users because they are now required to bring along the application software CD-ROMs while traveling. As a result, software publishers are torn between the desire to protect their intellectual property and the desire to supply the consumers with user-friendly products. In this difficult position, the software publishers are faced with either lost revenue from the illicit copying of their products or lost revenue from losing market share.
- Thus, a need exists for an improved method to discourage illicit copying of a copy-protected CD-ROM into a computer-readable data storage device without requiring the copy-protected CD-ROM to be inserted in the CD-ROM drive to successfully launch the copied application from the data storage device.
- Accordingly, the present invention provides an improved method to discourage illicit copying of a copy-protected CD-ROM into a computer-readable data storage device without requiring the copy-protected CD-ROM to be inserted in the CD-ROM drive to successfully launch the copied application from the data storage device.
- The present invention meets the above need with a method to discourage illicit copying from a digital record carrier to a computer-readable data storage device. As part of the method, the content of the digital record carrier is encrypted. Next, determination is made as to whether a predetermined time interval has lapsed since the digital record carrier was last inserted for use. If the predetermined time interval has not lapsed, the content of the digital record carrier that has been installed onto the computer-readable data storage device is decrypted into a random access memory thereby allowing the copied content to launch for use. Otherwise, if the predetermined time interval has lapsed, the content of the digital record carrier that has been installed onto the computer-readable data storage device is prevented from being decrypted thereby not allowing the copied content to launch for use. Under the present invention, re-inserting the digital record carrier resets the predetermined time interval.
- All the features and advantages of the present invention will become apparent from the following detailed description of its preferred embodiment whose description should be taken in conjunction with the accompanying drawings.
-
FIG. 1 is a diagram illustrating an exemplary CD-ROM 100 that is copy-protected in accordance with the present invention. -
FIG. 2 is a block diagram illustrating, as an example,computer system 200 upon which the present invention may be practiced. -
FIG. 3 is a chart illustrating the functions that the executed installer instructions 110 perform when copy-protected CD-ROM 100 is inserted intoCD drive 209 for the first time. -
FIG. 4 is a flow chart of the steps performed by license management system 320. -
FIG. 5 is a flow chart of the steps performed by executed filter instructions 120. - In the following detailed description of the present invention, numerous specific details are set forth in order to provide a thorough understanding of the present invention. However, it will be obvious to one skilled in the art that the present invention may be practiced without these specific details. In other instances well-known methods, procedures, components, and circuits have not been described in detail as not to unnecessarily obscure aspects of the present invention. Although the following description describes the present invention in the context of preventing illicit copying of the content of a CD-ROM to a hard disk drive, it should be clear to a person of ordinary skill in the art that the present invention can be used to prevent the illicit copying from any type of optical record carrier such as CD-Digital Audio (CD-DA), CD-Recordable (CD-R), CD-Rewritable (CD-RW), Digital Versatile Disc (DVD), etc. to any type of computer-readable data storage device including hard disk drives, tape drives, and others.
- In accordance with the present invention, when an authentic copy-protected CD-ROM is first inserted into a CD drive, the Central Processor Unit (CPU) executes the installer instructions residing in the CD-ROM to automatically copy the encrypted application (i.e., encrypted main application software) into the hard disk drive and to install a license management system that is used to control license management and to detect the authentic copy-protected CD-ROM. For security reasons, the content of the CD-ROM (e.g., the executable file of the application and other relevant files are encrypted. Upon completing the installation phase, when the user attempts to launch the encrypted copied application residing in the hard drive at any time prior to the expiration of the predetermined time interval, the license management system readily supplies the key to enable a filter to decode the encrypted copied application thereby allowing the application to launch. Following the expiration of the predetermined time interval or if the inserted CD-ROM cannot be authenticated, the license management system withholds the key therefore not allowing the copied application to be decrypted and successfully launched. When prompted by the shell, the predetermined time interval can be reset by reinserting the copy-protected CD-ROM into the CD drive to reset the time interval.
- In so doing, the present invention makes the CD drive available to the rights-owner (i.e., the CD-ROM owner) for other applications while the application copied from the copy-protected CD-ROM is running. The present invention also allows portable computer users to not having to carry all of their copy-protected CD-ROMs on the road. At the same time, by requiring reinsertion of the copy-protected CD-ROM periodically, the copy-protected CD-ROM is regularly required nearby thereby discouraging the illicit copying of a copy-protected CD-ROM into a hard drive of someone other than the rights-owner. This is because it is a major inconvenience of the illicit copier to keep borrowing the copy-protected CD-ROM from the rights-owner.
- As an alternate embodiment, the key can be obtained through a remote transaction via the Internet, the telephone, email, fax, etc. In this embodiment, following the expiration of the predetermined time interval, the user can communicate with a known remote central depository, maintained by the software publisher or developer to obtain a key in exchange for some information (e.g., a password) to decrypt the copied application thereby allowing it to be launched for use. The alternate embodiment, which also allows the rights-owner to enjoy most if not all of the benefits provided by the present invention as discussed above, is desirable especially if the original CD-ROM is not available (e.g., misplace) or if a directly connected CD-ROM drive is temporarily unavailable.
- Reference is now made to
FIG. 1 illustrating an exemplary CD-ROM 100 that is copy-protected in accordance with the present invention. In addition to an encrypted executable file of the application software product (not shown), copy-protected CD-ROM 100 stores at least installer instructions 110 (not shown) and filter instructions 120 (not shown) that are needed to prevent illicit copying of CD-ROM 100 into a hard disk drive. To further prevent illicit copying of CD-ROM 100 to another CD, copy-protected CD-ROM 100 may further include embedded digital signature 130 (not shown) and authentication instructions 140 (not shown). In the preferred embodiment, digital signature 130 is added to the Glass Master with the software publisher's content (e.g., application) already in place using a Laser Beam Recorder (LBR) by a mastering facility or replicator using the Master Interface Software (MIS) developed by Doug Carson Associates (DCA). Using the glass master, a CD Replicator can mass-produce Silver Discs with digital signature 130 and the encrypted content ready for use by the consumers. The aforementioned manufacturing steps are well known and should be obvious to a person of ordinary skill in the art. - Digital signature 130 is hidden and can only be detected using executed authentication instructions 140. Upon detecting and authenticating digital signature 130, information in digital signature 130 is used as a key to decrypt the encrypted executable file of the software content thereby allowing the application to launch. If digital signature 130 is not detected, the encrypted executable file of application cannot be decrypted for launch. Digital signature 130 is designed so that it cannot be copied. In other words, when copy protected CD-
ROM 100 is copied to another CD or to a computer-readable storage drive (e.g., computer hard drive), the digital signature cannot be transferred to the copied CD or storage drive thereby preventing the encrypted copied application from being launched. In accordance with the present invention, a license file storing the decryption key/code derived from digital signature 130 is used to provide the decryption key/code to launch a copied application in a hard disk drive. Such license file and other components relevant to the present invention are discussed in greater detail below. - Referring now to
FIG. 2 illustrating a block diagram ofexemplary computer system 200 upon which the present invention may be practiced. It is to be appreciated thatcomputer system 200 is exemplary only and that the present invention can operate within a number of different computer systems and computerized devices including general-purpose computer systems and others. In the following discussions of the present invention, certain processes and steps are realized as a series of instructions (e.g., software program) that reside within computer readable storage devices and memory units ofsystem 200 and executed byprocessor 201. - In general,
computer system 200 upon which the present invention is practiced comprises address/data bus 212 for conveying information and instructions,central processor 201 coupled withbus 212 for processing information and instructions, a random access memory (RAM) 202 for storing digital information and instructions, a read only memory (ROM) 203 for storing information and instructions of a more permanent nature. In addition,computer system 200 further includehard disk drive 204 for storing vast amounts of data such as the data copied from a CD-ROM, aCD drive 209 for reading copy-protected CD-ROM 100 in accordance with the present invention, I/O interface 208 for interfacing with peripheral devices (e.g., computer network, modem, etc.). Moreover,computer system 200 may includedisplay device 205 for displaying information to a computer user, an alphanumeric input device 206 (e.g., keyboard), and a cursor control device 207 (e.g., mouse, trackball, lightpen, etc.) for communicating user input information and command selections. - Reference is now made to
FIG. 3 illustrating the functions that the executed installer instructions 110 perform when copy-protected CD-ROM 100 is inserted into CD drive 209 for the first time. Installer instructions 110 may be an executable file. When installer instructions 110 are executed bycentral processor 201, the encrypted application (i.e., encrypted main application software) is automatically copied intohard disk drive 204. The executed installer instructions 110 also install license management system 320 onto thehard disk drive 204. In general, license management system 320 is designed to control license management and to detect an authentic copy-protected CD-ROM. License management system 320 may be an executable file that is executed bycentral processor 201 whenever a user attempts to launch the copy-protected application software. The implementation of installer instructions 110 to carry out the aforementioned functions using system facilities available oncomputer system 200 should be obvious to a person of ordinary skill in the art. Hence, specific detail of such implementation is not further discussed for brevity and simplicity sake. - Referring now to
FIG. 4 illustrating a flow diagram of the license management system 320. When a user attempts to launch the copy-protected application software,central processor 201 executes shell program 330 to determine whether a correct copy-protected CD-ROM (e.g., a CD-ROM whose identification number matches the application software content in the CD-ROM) is in CD drive 209 (step 410). If a correct copy-protected CD-ROM cannot be ascertained, shell program 450 (not shown) prompts for the correct CD-ROM (step 413) before continues the monitoring. Otherwise, if a correct copy-protected CD-ROM is ascertained, executed shell program 450 determines whether a valid license file 460 (not shown) has already been created for CD-ROM 100 carrying the application software (step 415). Iflicense file 420 has already existed, executed shell program 450 updates the information in license file 460 (step 420). Otherwise, if license file 460 has not been created, executed shell program 450 creates a new license file 460 in hard disk drive 204 (step 425). -
License file 420 is essentially a data file that includes the value of the predetermined time interval, the time and date when copy-protected CD-ROM 100 was last inserted into CD-ROM drive 209, the present time and date, the identity of the software product in copy-protected CD-ROM 100, the software product's protection information, and others. When CD-ROM 100 is first inserted intohard disk drive 204, the time and date at that moment is recorded inlicense file 420 as the time and date when CD-ROM 100 was last inserted. At each subsequent insertion of CD-ROM 100, the installer instructions update the time and date when CD-ROM 100 was last inserted. In the preferred embodiment, the present time and date is updated every 20 minutes. Accordingly, using the stored information on the time and date when CD-ROM 100 was last inserted and the present time and date, a determination of whether the predetermined time interval has been reached can be made (step 425). Hence, the main function of the license file is to monitor the time duration since copy-protected CD-ROM 100 was last inserted into CD-ROM drive 209. - For security reason, the license file is also encrypted to prevent unauthorized access to the predetermined time interval and/or the present time and date. The exact encryption method employed is not important as long as its identity is kept confidential from hackers for security reasons. This is so because access to the aforementioned information means that the information may be altered to defeat the copy-protected aspect of the present invention. For example, the predetermined time interval, the time and date when CD-
ROM 100 was last inserted, and/or the present time and date can be changed to fool the system into thinking that the time interval has not expired. The identity of the software product may be a code name or number and is used to ensure that the proper CD-ROM is inserted before access to the license file is allowed for alteration. This prevents a hacker to get access to the license file by using a different copy-protected CD-ROM. In the preferred embodiment, product protection information is a decryption code/key used in decrypting the application. Such decryption code/key is derived from digital signature 130 that was embedded in CD-ROM 100 during manufacturing. When digital signature 130 is detected by authentication instruction 140, which may be an executable file, during the detection and authentication process, it is passed to shell program 450 to record into the license file as the decryption code/key. In an alternate embodiment, the code/key can be obtained through a remote transaction via the Internet, the telephone, email, fax, etc. In this alternate embodiment, following the expiration of the predetermined time interval, the user can communicate with a known remote central depository, maintained by the software publisher or developer to obtain a code/key in exchange for some information (e.g., a password) or a license fee to use in decrypting the copied application thereby allowing it to be launched for use. Such remote central depository may be a key computer server connecting to the World Wide Web if the transaction is an Internet transaction. Such remote central depository may also be a data base operated by a service operator if the transaction is a manual one that involves the use of telephone, email, fax, etc. The alternate embodiment, which also allows the rights-owner to enjoy most if not all of the benefits provided by the present invention as discussed above, is desirable especially if the original CD-ROM is misplaced. The implementation of shell program 450 to carry out the aforementioned functions using system facilities available oncomputer system 200 should be obvious to a person of ordinary skill in the art. Hence, specific detail of such implementation is not further discussed for brevity and simplicity sake. - The executable file of the software application is encrypted prior to manufacturing of CD-
ROM 100. In so doing, the copied application cannot be launched from the hard disk drive unless a valid license file is present in order to allow the application to be decrypted. In accordance with the present invention, decryption is allowed only if the set time interval has not expired. In the preferred embodiment, decryption is carried out using filter instructions 120 which may be an executable file. In the preferred embodiment, encrypted files are decrypted by executing filter instructions 120 to perform as an operating system filter into RAM 202 (not hard disk drive 204). As such, the decryption is performed on in real time. In other words, the parts of an encrypted file are decrypted as the operating system requests it. Filter instructions 120 are enabled to decrypt only if the set time interval has not expired. Preferably, filter instructions 120 are enabled in response to the decryption code/key that is provided by the license file. The license management system makes available the decryption code/key only if the set predetermined time interval is not yet expired (step 430). Otherwise, if the time interval has already expired, the license management system does not make available the decryption code/key to the filter but rather prompts the user to re-insert copy-protected CD-ROM 100 by going back to step 413. Filter instructions 120 may be installed from CD-ROM 100 ontohard disk drive 204. When enabled by the decryption code/key and executed bycentral processor 201, filter instructions 120 decrypt the encrypted executable file for the application. - Referring now to
FIG. 5 illustrating the steps performed by filter instructions 120 when executed bycentral processor 201. Instep 505, filter instructions 120 monitor the input to determine whether the decryption code/key from the license file has been received. If the decryption code/key has not been received, filter instructions 120 continue to monitor the input. Otherwise, the decryption code/key has been received, filter instructions compare the code/key received with an internal stored code/key to determine whether there is a match (step 510). If there is no match indicating an error condition (e.g., someone may have tampered with the license file, etc.), filter instructions 120 reject the encryption code/key and aborts the effort to decrypt the encrypted executable file of the application (step 515). Otherwise, if there is a match, filter instructions 120 perform the reverse of the encrypted steps that were carried out to encrypt the executable file of the application (step 520). Because the software developers were the ones who encrypted the application, they know the encrypted steps. Accordingly, decrypted steps to basically reverse to process can easily be implemented into filter instructions 120. As an example, a simplistic encryption of the executable file of the application may involve inverting the binary values of the executable file. Hence, to decrypt the encrypted executable file simply involves inverting the binary values of the encrypted executable file back to their original values. The implementation of filter instructions 120 to perform the aforementioned functions using system facilities available oncomputer system 200 should be obvious to a person of ordinary skill in the art. Hence, specific detail of such implement is not further discussed for brevity and simplicity sake. - The preferred embodiment of the present invention, a technique to discourage illicit copying of a copy-protected CD-ROM into a computer-readable data storage device without requiring the copy-protected CD-ROM to be inserted in the CD-ROM drive to successfully launch the installed application from the storage drive, is thus described. While the present invention has been described in particular embodiments, the present invention should not be construed as limited by such embodiments, but rather construed according to the below claims.
Claims (21)
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US11/159,525 US20050246284A1 (en) | 1999-11-19 | 2005-06-22 | Digital record carrier and method for use of same to inhibit copying using decryption code or key from remote depository |
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US11/173,666 Abandoned US20050265193A1 (en) | 1999-11-19 | 2005-07-01 | Method and apparatus to inhibit copying from a record carrier |
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Also Published As
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US7065506B1 (en) | 2006-06-20 |
US20050265193A1 (en) | 2005-12-01 |
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