WO2004025502A1 - Methods and systems for controlling access to a data object by means of locks - Google Patents

Methods and systems for controlling access to a data object by means of locks Download PDF

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Publication number
WO2004025502A1
WO2004025502A1 PCT/EP2003/009827 EP0309827W WO2004025502A1 WO 2004025502 A1 WO2004025502 A1 WO 2004025502A1 EP 0309827 W EP0309827 W EP 0309827W WO 2004025502 A1 WO2004025502 A1 WO 2004025502A1
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WO
WIPO (PCT)
Prior art keywords
data
lock
data object
lock object
link
Prior art date
Application number
PCT/EP2003/009827
Other languages
French (fr)
Inventor
Thorsten Pferdekaemper
Martin Fischer
Original Assignee
Sap Aktiengesellschaft
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sap Aktiengesellschaft filed Critical Sap Aktiengesellschaft
Priority to EP03794989A priority Critical patent/EP1559039B1/en
Priority to AU2003258703A priority patent/AU2003258703A1/en
Priority to DE60306674T priority patent/DE60306674T2/en
Priority to US10/526,750 priority patent/US20060149696A1/en
Publication of WO2004025502A1 publication Critical patent/WO2004025502A1/en

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Classifications

    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F16/00Information retrieval; Database structures therefor; File system structures therefor
    • G06F16/10File systems; File servers
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F16/00Information retrieval; Database structures therefor; File system structures therefor
    • G06F16/20Information retrieval; Database structures therefor; File system structures therefor of structured data, e.g. relational data
    • G06F16/23Updating
    • G06F16/2308Concurrency control
    • G06F16/2336Pessimistic concurrency control approaches, e.g. locking or multiple versions without time stamps
    • G06F16/2343Locking methods, e.g. distributed locking or locking implementation details
    • YGENERAL 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
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S707/00Data processing: database and file management or data structures
    • Y10S707/99931Database or file accessing
    • Y10S707/99938Concurrency, e.g. lock management in shared database
    • YGENERAL 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
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S707/00Data processing: database and file management or data structures
    • Y10S707/99941Database schema or data structure
    • Y10S707/99943Generating database or data structure, e.g. via user interface
    • YGENERAL 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
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S707/00Data processing: database and file management or data structures
    • Y10S707/99951File or database maintenance
    • Y10S707/99952Coherency, e.g. same view to multiple users
    • Y10S707/99955Archiving or backup

Definitions

  • the technical field of this invention is in the area of electronic data processing. More particularly, the invention relates to methods, computer program products and systems for accessing data objects, particularly in the context of data moving.
  • Moving of data objects is well known to every user of a computer and is a standard procedure, which is routinely applied.
  • a special application of moving data objects is the archiving process, by which data objects
  • ERP enterprise resource planning software
  • archiving can be performed automatically by archiving software tools, which can be part of the ERP software.
  • archiving software tools can consist of a writing module, which stores (writes) the data objects to be archived sequentially in archive files, and a deleting module, which deletes the successfully archived data from the original data object base.
  • the writing module can select the data objects to be archived from the data base according to specific criteria, e.g. the creation time of the data. It usually does not modify the original data objects or data base.
  • the deleting module staggeredly reads the archive file sequentially and deletes the data objects found in the archive file from the original data base. This ensures that only such data objects are deleted from the original data base, which. are readably stored in the archive file.
  • the time for the archiving procedure as a whole depends on the amount of data and varies from a few milliseconds to several hours or, days. Consequently, there is in many cases a considerable time gap between writing the data into the archive file and deleting the data from the original data base. This time gap can be a reason for the following problems:
  • the data objects are still available in the original data base, they can still be modified by any software application during said time gap. Because the deleting program does not compare the archived data object and the data object to be deleted, such modifications can be lost. This has not only the consequence of the loss of the amended data, it can additionally have the consequence that certain business processes can not be completed. An other problem arises, if several archiving processes run in parallel. Then it can happen, that one data object is archived several times, and is no longer unambiguously identifiable. This can have the consequence that evaluations or statistical analysis, which use the archive files, produce wrong results.
  • data objects in the original data base are read by the writing module and are simultaneously modified by an other software application.
  • the data can be transferred from an archiveable status to a non archiveable status.
  • data objects which are not archiveable are written into the archive file and are deleted from the original data base. In effect, this can result in a loss of data.
  • methods and systems consistent with the principles of the invention provide for accessing in a computer system a data object having an identifier (ID) , comprising: checking, before accessing said data object, whether said ID is contained in a first lock object and whether a link to a storage location is assigned to said ID in said first lock object, and in case said ID is not contained in said first lock object and/or no link is assigned to said ID, performing a read and/or write access on said data object, else, skipping said access.
  • ID identifier
  • the invention and its embodiments are further directed to a computer readable medium and a carrier signal comprising instructions for processing data according to the inventive method and in its embodiments.
  • An advantage of the invention and its embodiments is that the security against data loss in data moving and archiving procedures is greatly improved. This avoids in consequence a lot " of time and money for data retrieving. Additional objects and advantages of the invention and its embodiments will be set forth in part in the description, or can be learned by practice of the invention. Objects and advantages will be realized and attained by means of the elements and combinations particularly pointed out in the appended claims. Embodiments of the invention are disclosed in the detailed description section and in the dependent and appended claims as well .
  • Fig. 1 is a schematic block diagram of the implementation of the inventive method within a computer system.
  • Fig. 2 is a schematic diagram of an exemplary structure of a lock object and a data object in accordance with the principles of the inventive method.
  • Fig. 3 is an exemplary flow diagram of an implementation of the creation of a first and second lock object shown in Fig. 1.
  • Fig. 4 is an exemplary flow diagram of an alternative implementation of the creation of a first and second lock object shown in Fig. 1.
  • Fig. 5 is an exemplary flow diagram of an implementation of a deleting process in the context of data moving/archiving.
  • Fig. 6 is an exemplary flow chart of a further implementation of the creation of a first and second lock object.
  • Fig. 7 shows an exemplary flow chart of how any software application can use the concept of the P- and T-locks.
  • Fig. 8 shows a process alternative to that shown in Fig. 7, including a conditional deletion of a P-lock.
  • Fig. 9 shows an example of a flow chart for a software module by means of which the locks can be deleted.
  • a computer system can be a stand alone computer such as a PC or a laptop or a series of computers connected as a network, e.g. a network within a company, or a series of computers connected via the internet.
  • a data object to be archived can be any kind or type of data, e.g. numerical or textual data, image data, meta data, irrespective whether the data are implemented as whole files or parts of files or fields in tables, irrespective whether they are stored in volatile memory or nonvolatile memory.
  • data objects according to the present invention can be implemented as one or more fields of one or more tables, particularly of tables of a relational data base system, or as objects in an object orientated programming language .
  • ERP software shall be considerer to comprise any software application that supports the business processes of an enterprise.
  • a storage location is a volatile or nonvolatile storage means accessible by the computer system. It can be any kind of computer storage means known to one of ordinary skill, e.g. RAM, magnetical or optical storage, such as floppy disk, hard disk, MO-Disk, CD-ROM, CD RW, DVD ROM, DVD RW, etc.
  • RAM random access memory
  • magnetical or optical storage such as floppy disk, hard disk, MO-Disk, CD-ROM, CD RW, DVD ROM, DVD RW, etc.
  • An identifier is a type of data, which allows an unambiguous identification of the data object to be archived, it can be implemented for example as a number or a combination of alphanumerical characters or as a characteristic part of the data object to be archived. It is clear from that definition that definition that a data object can have a wide variety of IDs.
  • a lock object is a data object, in which the identifiers are stored. It can be implemented e.g. as a file on a storage means or as a data array in computer memory.
  • a first lock object can be stored advantageously in a nonvolatile storage means and a second lock object can be stored in volatile and/or nonvolatile storage means.
  • the assignment of a storage location to an ID can be implemented by a table, in which one field of a line contains the ID and an other field of that line contains a link to the second storage location, e.g. a file name.
  • This table can be stored as a file on a nonvolatile storage means.
  • Fig. 1 depicts one example of an implementation of a first embodiment of the invention.
  • Fig. 1 shows a computer system 101 comprising a computer 103 having a CPU 105, a working storage 112, in which an software application 111 is stored for being processed by CPU
  • Software application 111 comprises program modules
  • Computer System 101 further comprises input means 113, output means 112 for interaction with a user, and general input/output means 104, including a net connection 114, for sending and receiving data.
  • a plurality of computer systems 101 can be connected via the net connection 114 in the form of a network 113.
  • the network computers 113 can be used as further input/output means, including the use as further storage locations.
  • Computer system 103 further comprises a first storage means 107, in which the data objects and the first lock object are stored.
  • a second storage means 108 is available for archiving purpose.
  • one or more data objects stored in the first storage means 107 are selected and the checking module 109 checks before the data objects are accessed by reading module 110 or writing module 106, whether the ID of the selected data object or objects is contained in the first lock object and whether a link to the second or first storage location 107, 108 or to a file on these storage locations is assigned to said ID in said first lock object. In case said ID is not contained in said first lock object and/or no link is assigned to said
  • checking module 109 can be repeatedly called until the data object is free for access.
  • a data object comprises one or more fields of one or more tables, and the ID of the respective object comprises one or more key fields of that data object.
  • FIG. 2 various sets of data objects are created in the form of two-dimensional data arrays, i.e. two tables having columns named field A to field X and field Y, respectively, and a certain, unspecified number of lines.
  • a field of the array or table is defined by the name of the column and the respective line.
  • Such field can contain data to be archived. It can alternatively contain a reference to a line of a further table. For example, in table 1 field X in line 2 contains a reference to line 3 in table 2.
  • a data object to be archived comprises fields of one line of the respective table. If one of the fields contains a reference to a line of an other table, fields of this referenced line belong to the data object, too.
  • a data object to be archived comprises the fields of line 2 in table 1 and fields of line 3 in table 2.
  • An ID of such a data object can be implemented by the content of one or more so-called key fields, if the combination of these key fields is unique within the respective table.
  • the fields of. "field A” and “field B” can be used as key fields for table 1, whereas field A alone is key field in table 2.
  • the data object has the content of the fields of columns field A and B of the respective lines as ID.
  • the ID for the data object to be archived is stored as a first type ID in a first type lock object, named persistent lock object in Fig. 2, and as a second type ID in a second type lock object, named transactional lock object.
  • the persistent lock object is implemented as a table having two columns, the first of which contains the first type ID 1.
  • the second type ID, ID 2 can be implemented as a one dimensional data array stored in the working memory of the computer system. However, it can be implemented as a file on a nonvolatile storage means, too.
  • the first type ID, ID 1 is deleted in a moving or archiving process after the selected data object has been deleted from its original storage location.
  • the second type ID, ID 2 is deleted immediately after a read or write access on a data object has been completed.
  • type ID 1 IDs can be deleted after all the selected data objects have been deleted from the original storage location.
  • both ID types have identical content, the ID of the respective lines of the data to be moved/archived.
  • the persistent lock objects further contain a column by which a filename is assigned to the ID of the data object, i.e. that data object to be archived.
  • line 1 is archived in a file named 001
  • lines 2 and 3 in file 002 and line 4 in file 003.
  • Selection of the data object can be implemented by an automatic procedure, such as a simple query, that returns all lines having a certain field that satisfy a certain condition.
  • the procedure could return all lines in which the content of a date field pre-dates or postdates a certain deadline.
  • Selection can also be implemented by a user to whom a selection table is presented via a graphical user interface.
  • a further embodiment is characterized in that said link is a filename or a link to a file.
  • a further embodiment is characterized in that said first lock object is created by an data moving process.
  • the invention comprises before performing said check, storing said ID in a second lock object, which is stored in a volatile storage means. Additionally, the invention comprises checking, whether the ID has been successfully stored in the second lock object, and in case no, skipping accessing the data object.
  • An other embodiment is characterized by said second lock object is a data array.
  • said data array is one dimensional .
  • a first type ID is called a P-lock (permanent) and a second type ID is called a T-lock (transactional) .
  • setting a P- or T-lock for a selected object means to store an ID of that object in a respective lock object.
  • the term "permanent” results for the property of the P-lock of existing permanently, as long as the data object is not yet deleted from its original storage location.
  • the term "transactional" results from the property of the T-lock of existing only as long as a specific action (e.g. checking of archiveability) is performed on a selected data object or, in other words, of being deleted shortly after the respective action has been performed.
  • a data object is selected in a first step 301.
  • a T-lock is set on this object in a second step 302. If the T-lock was successfully set (step 303) , that is, if it did not yet exist, it is checked in step 304 whether a P-lock already exists in the selected data object. If not, the next data object is selected in step 309.
  • the setting of the T-lock (step 302) and the check (step 303) whether it is successfully set can advantageously be implemented as one "atomic" step. This means that both steps can be executed essentially at the same time or, in other words, the time gap between both steps can be essentially zero.
  • Both checks can also be implemented by querying the respective lock objects.
  • the T-lock is deleted (step 308) and the next data object is selected (step 309) . If no P-lock exists, it is checked in steps 305 and 306, whether the data object is archiveable. Such checking comprises a test whether the data in the data object is readable, complete, not fraught with obvious failures, etc. If the test is successful, a P-lock is set on that data object in step 307, whereby no archive file is assigned to the data object at that point. Then the T- lock is deleted (step 308) and the next data object is selected (step 309) .
  • a data object is selected in a first step 401. Subsequently, a T-lock is set on this object in step 402. If the T-lock was successfully set (step 403), it is checked in step 404 whether a P-lock already exists in the selected data object, whereby no file must be assigned to that data object at that point of the process. If the condition is not fulfilled, the T-lock is deleted in step 407, and the next data object is selected in step 408. If a P-lock exists, the data object is stored in an archive file in step 405 and the archive file is assigned to the data object in step 406, e.g. by adding the file name to the lock object as shown in Fig. 2. Subsequently, the T-lock is deleted (step 407) , and the next data object is selected (step 408) . -
  • a data object that has already been archived is selected (step 501) . This can be implemented by checking the archive files. If a data object has been selected and successfully read from the archive file, that data object is deleted from the original storage location (step 502) , the P-lock is deleted (step 503) , and the next data object is selected (step, 504) .
  • a data object is selected in a first step 601. Subsequently, a T-lock is set on this object in step 602. If the T-lock was successfully set (step 603), it is checked in step 604 whether a P-lock already exists in the selected data object. If not, the next data object is selected (step 610) . If a P-lock exists on that object, the T-lock is deleted (step 609) and the next data object is selected (step 610) . If no P-lock exists on that object, it is checked in step 605, whether the data object is archiveable.
  • step 606 If this check fails (step 606) , the T-lock is deleted (step 609) , and the next data object is selected (step 610) . If the check is positive, the data object is stored (step 605) in an archive file, a P-lock is set (step 608) with the archive file assigned, the T-lock is deleted (step 609) and the next data object is selected (step 610) .
  • Fig. 7 shows by way of an exemplary flow chart how any software application according to the invention can use the concept of the P- and T-locks to ensure that the measures, the software application is going to apply on the data object, do not influence the archiving process.
  • a software application which is programmed to have a read and/or write access to data objects, which can be subject of an archiving process as described, comprises the following steps as shown in Fig. 7. In a first step 701, the data object is selected. Then a T- lock is set in step 702 on that object by the application. If the T-lock is successfully set (step 703) , it is checked in step 704, whether a P-lock exists on that object, otherwise the application terminates in step 707.
  • the T-lock is deleted (step 706) and the application terminates (step 707) . If no P-lock exists, i.e. the data object is not subject to an archiving process, the application can have read/write access to the data object in a working step 705. Subsequently the application deletes the T-lock (step 706) and terminates (step 707) .
  • Fig. 8 shows a process alternative to that shown in Fig. 7, including a conditional deletion of a P-lock.
  • a first step 801 the data object is selected. Then a T-lock is set on that object by the application (step 802) . If the T-lock is successfully set (step 803) , it is checked (step 804) , whether a P-lock exists on that object, otherwise the application terminates (step 809). If no P-lock exists (step 804), i.e. the data object is not subject to an archiving process, the application can have read/write access to the data object in working step 807. Subsequently, the application deletes the T-lock (step 808) and terminates (step 809) .
  • a P-lock exists (step 804) , it is checked (step 805) , whether a file is assigned to it. If a file is assigned, the application deletes the T-lock (step 808) and terminates (step 809) . If no file is assigned, the P-lock is deleted (step 806) , and the application can have read/write access to the data object (step 807). Subsequently, the application deletes the T-lock (step 808) and terminates 809 (step 809) .
  • This procedure is particularly useful, in that data objects, which are not yet stored in an archive file, can be still altered. Consequently, they can be archived only at the next archive run.
  • Fig. 9 shows an example of a flow chart for a software module by means of which the locks set by the modules described above can be deleted. This can be useful in cases in which no archive files are assigned to P-locks or in which P-locks have been deleted for a user.
  • a P-lock is nothing else than a data object and can be treated in the same way as described above .
  • a P-lock is selected.
  • a T- lock is set to the P-lock (step 902) . If the T-lock is successfully set (step 903), it is checked in step 904, whether the P-lock has a file assigned. If the T-lock is not set successfully the module terminates (step 907) .
  • step 904 If the selected P-lock has no file assigned (step 904) , the P-lock is deleted (step 905) . Then the T-lock is deleted (step 906) , and the module terminates (step 907) . Alternative to the termination (step 907) , a next P-lock can be selected.
  • the described implementation includes software, but systems and methods consistent with the present invention can be implemented as a combination of hardware and software or in hardware alone.
  • aspects of the present invention are described for being stored in memory, one skilled in the art will appreciate that these aspects can also be stored on other types of computer-readable media, such as secondary storage devices, for example, hard disks, floppy disks, or CD-ROM; the Internet or other propagation medium; or other forms of RAM or ROM. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the invention being indicated by the following claims.
  • Programs based on the written description and flow charts of this invention are within the skill of an experienced developer.
  • the various programs or program modules can be created using any of the techniques known to one skilled in the art or can be designed in connection with existing software.
  • programs or program modules can be designed in or by means of ® Java, C++, HTML, XML, or HTML with included Java applets or in SAP R/3 or ABAP .

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Abstract

The Invention relates to a process for accessing in a computer system a data object having an identifier (ID), comprising: checking, before accessing said data object, whether said ID is contained in a first lock object and whether a link to a storage location is assigned to said ID in said first lock object, and in case said ID is not contained in said first lock object and/or no link is assigned to said ID, performing a read and/or write access on said data object, else, skipping said access.

Description

METHODS AND SYSTEMS FOR CONTROLLING ACCESS TO A DATA OBJECT BY MEANS OF LOCKS
Background of the Invention
Field of the Invention.
5 The technical field of this invention is in the area of electronic data processing. More particularly, the invention relates to methods, computer program products and systems for accessing data objects, particularly in the context of data moving.
10 Description of the Related Art
Moving of data objects is well known to every user of a computer and is a standard procedure, which is routinely applied. A special application of moving data objects is the archiving process, by which data objects
15 are moved from a first to a second storage location for safety and/or performance reasons. In enterprises, enterprise resource planning software (ERP) applications are used to control or support business processes and the management of the enterprise. ERP
20 software is further used to manage company information of enterprises of various kinds in any field of technology by means of automatic data processing systems such as computers or computer systems . During the use of such software a huge amount of data is
25 usually created, which contains important business information and which has to be archived from time to time .
According to the state of' the art (see Helmut Stefani, 30 Datenarchivierung mit SAP, Galileo Press GmbH, Bonn 2002, ISBN 3-89842-212-7), archiving can be performed automatically by archiving software tools, which can be part of the ERP software. Such tools can consist of a writing module, which stores (writes) the data objects to be archived sequentially in archive files, and a deleting module, which deletes the successfully archived data from the original data object base. The writing module can select the data objects to be archived from the data base according to specific criteria, e.g. the creation time of the data. It usually does not modify the original data objects or data base. The deleting module staggeredly reads the archive file sequentially and deletes the data objects found in the archive file from the original data base. This ensures that only such data objects are deleted from the original data base, which. are readably stored in the archive file. The time for the archiving procedure as a whole depends on the amount of data and varies from a few milliseconds to several hours or, days. Consequently, there is in many cases a considerable time gap between writing the data into the archive file and deleting the data from the original data base. This time gap can be a reason for the following problems:
As long as the data objects are still available in the original data base, they can still be modified by any software application during said time gap. Because the deleting program does not compare the archived data object and the data object to be deleted, such modifications can be lost. This has not only the consequence of the loss of the amended data, it can additionally have the consequence that certain business processes can not be completed. An other problem arises, if several archiving processes run in parallel. Then it can happen, that one data object is archived several times, and is no longer unambiguously identifiable. This can have the consequence that evaluations or statistical analysis, which use the archive files, produce wrong results.
It can also happen that data objects in the original data base are read by the writing module and are simultaneously modified by an other software application. In such a case, the data can be transferred from an archiveable status to a non archiveable status. In consequence, data objects which are not archiveable are written into the archive file and are deleted from the original data base. In effect, this can result in a loss of data.
Thus, there is a need for a method, software application and/or data processing system providing a more efficient solution of the problems described above, particularly it is desirable to provide a software application having a control mechanism, which prevents the modification during a moving or archiving process .
Summary of the Invention
In accordance with the invention, as embodied and broadly described herein, methods and systems consistent with the principles of the invention provide for accessing in a computer system a data object having an identifier (ID) , comprising: checking, before accessing said data object, whether said ID is contained in a first lock object and whether a link to a storage location is assigned to said ID in said first lock object, and in case said ID is not contained in said first lock object and/or no link is assigned to said ID, performing a read and/or write access on said data object, else, skipping said access.
By using this method, software applications, which require access to data objects, can check by querying the lock object, whether the data to be accessed are subject to a moving process or not. If yes, the access to that data can be postponed until the moving is completed.
In accordance with another aspect, the invention, as embodied and broadly described herein, methods and systems consistent with the principles of the invention provide a computer system for processing data by means of or in a software application, comprising:
- memory for storing program instructions;
- input means for entering data; - storage means for storing data;
- a processor responsive to program instructions
- programm instructions to carry out a method as of any of claims 1 to 12.
The invention and its embodiments are further directed to a computer readable medium and a carrier signal comprising instructions for processing data according to the inventive method and in its embodiments.
An advantage of the invention and its embodiments is that the security against data loss in data moving and archiving procedures is greatly improved. This avoids in consequence a lot" of time and money for data retrieving. Additional objects and advantages of the invention and its embodiments will be set forth in part in the description, or can be learned by practice of the invention. Objects and advantages will be realized and attained by means of the elements and combinations particularly pointed out in the appended claims. Embodiments of the invention are disclosed in the detailed description section and in the dependent and appended claims as well .
It is understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention and its embodiments, as claimed.
Brief Description of the Drawings
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate examples of embodiments of the invention and, together with the description, explain the principles of the invention. In the drawings,
Fig. 1 is a schematic block diagram of the implementation of the inventive method within a computer system.
Fig. 2 is a schematic diagram of an exemplary structure of a lock object and a data object in accordance with the principles of the inventive method.
Fig. 3 is an exemplary flow diagram of an implementation of the creation of a first and second lock object shown in Fig. 1. Fig. 4 is an exemplary flow diagram of an alternative implementation of the creation of a first and second lock object shown in Fig. 1.
Fig. 5 is an exemplary flow diagram of an implementation of a deleting process in the context of data moving/archiving.
Fig. 6 is an exemplary flow chart of a further implementation of the creation of a first and second lock object.
Fig. 7 shows an exemplary flow chart of how any software application can use the concept of the P- and T-locks.
Fig. 8 shows a process alternative to that shown in Fig. 7, including a conditional deletion of a P-lock.
Fig. 9 shows an example of a flow chart for a software module by means of which the locks can be deleted.
Detailed Description
Computer system and program are closely related. As used hereinafter, phrases, such as "the computer provides" and "the program provides or performs specific actions", "a user performs a specific action" are convenient abbreviation to express actions by a computer system that is controlled by a program or to express that the program or program module is designed to enable the computer system to perform the specific action or the enable a user to perform the specific action by means of a computer system. Reference will now be made in detail to the principles of the invention by explaining the invention on the basis of the archiving process, examples of which are illustrated in the accompanying drawings. Examples, mentioned therein, are intended to explain the invention and not to limit the invention in any kind.
Within the concept of this description, the terms used shall have their usual meaning in the context of the field of data processing unless defined otherwise in the following section:
A computer system can be a stand alone computer such as a PC or a laptop or a series of computers connected as a network, e.g. a network within a company, or a series of computers connected via the internet. A data object to be archived can be any kind or type of data, e.g. numerical or textual data, image data, meta data, irrespective whether the data are implemented as whole files or parts of files or fields in tables, irrespective whether they are stored in volatile memory or nonvolatile memory. As an example, data objects according to the present invention can be implemented as one or more fields of one or more tables, particularly of tables of a relational data base system, or as objects in an object orientated programming language .
The term ERP software shall be considerer to comprise any software application that supports the business processes of an enterprise.
A storage location is a volatile or nonvolatile storage means accessible by the computer system. It can be any kind of computer storage means known to one of ordinary skill, e.g. RAM, magnetical or optical storage, such as floppy disk, hard disk, MO-Disk, CD-ROM, CD RW, DVD ROM, DVD RW, etc.
An identifier (ID) is a type of data, which allows an unambiguous identification of the data object to be archived, it can be implemented for example as a number or a combination of alphanumerical characters or as a characteristic part of the data object to be archived. It is clear from that definition that a data object can have a wide variety of IDs. A lock object is a data object, in which the identifiers are stored. It can be implemented e.g. as a file on a storage means or as a data array in computer memory. A first lock object can be stored advantageously in a nonvolatile storage means and a second lock object can be stored in volatile and/or nonvolatile storage means.
The assignment of a storage location to an ID can be implemented by a table, in which one field of a line contains the ID and an other field of that line contains a link to the second storage location, e.g. a file name. This table can be stored as a file on a nonvolatile storage means.
Fig. 1 depicts one example of an implementation of a first embodiment of the invention. Fig. 1 shows a computer system 101 comprising a computer 103 having a CPU 105, a working storage 112, in which an software application 111 is stored for being processed by CPU
105. Software application 111 comprises program modules
106, 109, 110 for carrying out reading access, writing access and for checking whether the IDs of the selected data objects are contained in the first lock object. Computer System 101 further comprises input means 113, output means 112 for interaction with a user, and general input/output means 104, including a net connection 114, for sending and receiving data. A plurality of computer systems 101 can be connected via the net connection 114 in the form of a network 113. In this case the network computers 113 can be used as further input/output means, including the use as further storage locations. Computer system 103 further comprises a first storage means 107, in which the data objects and the first lock object are stored. A second storage means 108, is available for archiving purpose.
In case the program modules 106, 109, 110 are processed by CPU 105 in order to carry out the inventive process, one or more data objects stored in the first storage means 107 are selected and the checking module 109 checks before the data objects are accessed by reading module 110 or writing module 106, whether the ID of the selected data object or objects is contained in the first lock object and whether a link to the second or first storage location 107, 108 or to a file on these storage locations is assigned to said ID in said first lock object. In case said ID is not contained in said first lock object and/or no link is assigned to said
ID, the call of the reading or writing module is skipped. The software application 111 can then be terminated and started anew at a later time. Alternatively, checking module 109 can be repeatedly called until the data object is free for access.
In a second implementation of the invention, a data object comprises one or more fields of one or more tables, and the ID of the respective object comprises one or more key fields of that data object. This can be seen from Fig. 2. In this instance, various sets of data objects are created in the form of two-dimensional data arrays, i.e. two tables having columns named field A to field X and field Y, respectively, and a certain, unspecified number of lines. A field of the array or table is defined by the name of the column and the respective line. Such field can contain data to be archived. It can alternatively contain a reference to a line of a further table. For example, in table 1 field X in line 2 contains a reference to line 3 in table 2. A data object to be archived comprises fields of one line of the respective table. If one of the fields contains a reference to a line of an other table, fields of this referenced line belong to the data object, too. In the example in Fig. 2, a data object to be archived comprises the fields of line 2 in table 1 and fields of line 3 in table 2.
An ID of such a data object can be implemented by the content of one or more so-called key fields, if the combination of these key fields is unique within the respective table. In the example, the fields of. "field A" and "field B" can be used as key fields for table 1, whereas field A alone is key field in table 2. Within this example, the data object has the content of the fields of columns field A and B of the respective lines as ID. The ID for the data object to be archived is stored as a first type ID in a first type lock object, named persistent lock object in Fig. 2, and as a second type ID in a second type lock object, named transactional lock object. The persistent lock object is implemented as a table having two columns, the first of which contains the first type ID 1. The second type ID, ID 2, can be implemented as a one dimensional data array stored in the working memory of the computer system. However, it can be implemented as a file on a nonvolatile storage means, too. The first type ID, ID 1, is deleted in a moving or archiving process after the selected data object has been deleted from its original storage location. The second type ID, ID 2 , is deleted immediately after a read or write access on a data object has been completed. Alternatively, type ID 1 IDs can be deleted after all the selected data objects have been deleted from the original storage location. As can be seen, both ID types have identical content, the ID of the respective lines of the data to be moved/archived. The persistent lock objects further contain a column by which a filename is assigned to the ID of the data object, i.e. that data object to be archived. In the example, line 1 is archived in a file named 001, lines 2 and 3 in file 002, and line 4 in file 003.
Selection of the data object can be implemented by an automatic procedure, such as a simple query, that returns all lines having a certain field that satisfy a certain condition. For example, the procedure could return all lines in which the content of a date field pre-dates or postdates a certain deadline. Selection can also be implemented by a user to whom a selection table is presented via a graphical user interface.
A further embodiment is characterized in that said link is a filename or a link to a file.
A further embodiment is characterized in that said first lock object is created by an data moving process.
In a further embodiment the invention comprises before performing said check, storing said ID in a second lock object, which is stored in a volatile storage means. Additionally, the invention comprises checking, whether the ID has been successfully stored in the second lock object, and in case no, skipping accessing the data object.
An other embodiment is characterized by said second lock object is a data array. Advantageously, said data array is one dimensional .
In order to better understand the inventive process and its advantages, the creation of a lock object is now described in more detail with reference to Figs. 3 to 5, which are schematic flow diagrams of exemplary implementations of a data moving or archiving processes, respectively, as shown in Fig. 1. Within the context of this description, and particularly the Figs. 3 to 9, a first type ID is called a P-lock (permanent) and a second type ID is called a T-lock (transactional) . So, setting a P- or T-lock for a selected object means to store an ID of that object in a respective lock object. The term "permanent" results for the property of the P-lock of existing permanently, as long as the data object is not yet deleted from its original storage location. The term "transactional" results from the property of the T-lock of existing only as long as a specific action (e.g. checking of archiveability) is performed on a selected data object or, in other words, of being deleted shortly after the respective action has been performed.
In the flow chart of the selecting module in Fig. 3, a data object is selected in a first step 301. Subsequently, a T-lock is set on this object in a second step 302. If the T-lock was successfully set (step 303) , that is, if it did not yet exist, it is checked in step 304 whether a P-lock already exists in the selected data object. If not, the next data object is selected in step 309. The setting of the T-lock (step 302) and the check (step 303) whether it is successfully set can advantageously be implemented as one "atomic" step. This means that both steps can be executed essentially at the same time or, in other words, the time gap between both steps can be essentially zero.
Both checks (steps 303 and 304) can also be implemented by querying the respective lock objects.
If a P-lock exists, the T-lock is deleted (step 308) and the next data object is selected (step 309) . If no P-lock exists, it is checked in steps 305 and 306, whether the data object is archiveable. Such checking comprises a test whether the data in the data object is readable, complete, not fraught with obvious failures, etc. If the test is successful, a P-lock is set on that data object in step 307, whereby no archive file is assigned to the data object at that point. Then the T- lock is deleted (step 308) and the next data object is selected (step 309) .
In the flow chart of the writing module in Fig. 4, a data object is selected in a first step 401. Subsequently, a T-lock is set on this object in step 402. If the T-lock was successfully set (step 403), it is checked in step 404 whether a P-lock already exists in the selected data object, whereby no file must be assigned to that data object at that point of the process. If the condition is not fulfilled, the T-lock is deleted in step 407, and the next data object is selected in step 408. If a P-lock exists, the data object is stored in an archive file in step 405 and the archive file is assigned to the data object in step 406, e.g. by adding the file name to the lock object as shown in Fig. 2. Subsequently, the T-lock is deleted (step 407) , and the next data object is selected (step 408) . -
In the flow chart of the deleting module in Fig. 5, a data object that has already been archived is selected (step 501) . This can be implemented by checking the archive files. If a data object has been selected and successfully read from the archive file, that data object is deleted from the original storage location (step 502) , the P-lock is deleted (step 503) , and the next data object is selected (step, 504) .
In the exemplary flow chart of a further exemplary implementation of the creation of a lock object in Fig.
6, the processes, as described above with respect to Figs. 3 and 4, are combined to one module. Accordingly, a data object is selected in a first step 601. Subsequently, a T-lock is set on this object in step 602. If the T-lock was successfully set (step 603), it is checked in step 604 whether a P-lock already exists in the selected data object. If not, the next data object is selected (step 610) . If a P-lock exists on that object, the T-lock is deleted (step 609) and the next data object is selected (step 610) . If no P-lock exists on that object, it is checked in step 605, whether the data object is archiveable. If this check fails (step 606) , the T-lock is deleted (step 609) , and the next data object is selected (step 610) . If the check is positive, the data object is stored (step 605) in an archive file, a P-lock is set (step 608) with the archive file assigned, the T-lock is deleted (step 609) and the next data object is selected (step 610) .
Fig. 7 shows by way of an exemplary flow chart how any software application according to the invention can use the concept of the P- and T-locks to ensure that the measures, the software application is going to apply on the data object, do not influence the archiving process. A software application which is programmed to have a read and/or write access to data objects, which can be subject of an archiving process as described, comprises the following steps as shown in Fig. 7. In a first step 701, the data object is selected. Then a T- lock is set in step 702 on that object by the application. If the T-lock is successfully set (step 703) , it is checked in step 704, whether a P-lock exists on that object, otherwise the application terminates in step 707. If a P-lock exists on that object, the T-lock is deleted (step 706) and the application terminates (step 707) . If no P-lock exists, i.e. the data object is not subject to an archiving process, the application can have read/write access to the data object in a working step 705. Subsequently the application deletes the T-lock (step 706) and terminates (step 707) .
Fig. 8 shows a process alternative to that shown in Fig. 7, including a conditional deletion of a P-lock. In a first step 801, the data object is selected. Then a T-lock is set on that object by the application (step 802) . If the T-lock is successfully set (step 803) , it is checked (step 804) , whether a P-lock exists on that object, otherwise the application terminates (step 809). If no P-lock exists (step 804), i.e. the data object is not subject to an archiving process, the application can have read/write access to the data object in working step 807. Subsequently, the application deletes the T-lock (step 808) and terminates (step 809) . If a P-lock exists (step 804) , it is checked (step 805) , whether a file is assigned to it. If a file is assigned, the application deletes the T-lock (step 808) and terminates (step 809) . If no file is assigned, the P-lock is deleted (step 806) , and the application can have read/write access to the data object (step 807). Subsequently, the application deletes the T-lock (step 808) and terminates 809 (step 809) .
This procedure is particularly useful, in that data objects, which are not yet stored in an archive file, can be still altered. Consequently, they can be archived only at the next archive run.
Fig. 9 shows an example of a flow chart for a software module by means of which the locks set by the modules described above can be deleted. This can be useful in cases in which no archive files are assigned to P-locks or in which P-locks have been deleted for a user. Therein, a P-lock is nothing else than a data object and can be treated in the same way as described above . In a first step 901, a P-lock is selected. Then a T- lock is set to the P-lock (step 902) . If the T-lock is successfully set (step 903), it is checked in step 904, whether the P-lock has a file assigned. If the T-lock is not set successfully the module terminates (step 907) . If the selected P-lock has no file assigned (step 904) , the P-lock is deleted (step 905) . Then the T-lock is deleted (step 906) , and the module terminates (step 907) . Alternative to the termination (step 907) , a next P-lock can be selected. Modifications and adaptations of the present invention will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. The foregoing description of an implementation of the invention has been presented for purposes of illustration and description. It is not exhaustive and does not limit the invention to the precise form disclosed. Modifications and variations are possible in light of the above teachings or can be acquired from the practicing of the invention. For example, the described implementation includes software, but systems and methods consistent with the present invention can be implemented as a combination of hardware and software or in hardware alone. Additionally, although aspects of the present invention are described for being stored in memory, one skilled in the art will appreciate that these aspects can also be stored on other types of computer-readable media, such as secondary storage devices, for example, hard disks, floppy disks, or CD-ROM; the Internet or other propagation medium; or other forms of RAM or ROM. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the invention being indicated by the following claims.
Computer programs based on the written description and flow charts of this invention are within the skill of an experienced developer. The various programs or program modules can be created using any of the techniques known to one skilled in the art or can be designed in connection with existing software. For example, programs or program modules can be designed in or by means of ® Java, C++, HTML, XML, or HTML with included Java applets or in SAP R/3 or ABAP .

Claims

What is claimed is:
1. A method for accessing in a computer system a data object having an identifier (ID) , comprising: checking, before accessing said data object, whether said ID is contained in a first lock object and whether a link to a storage location is assigned to said ID in said first lock object, and in case said ID is not contained in said first lock object and/or no link is assigned to said ID, performing a read and/or write access on said data object, else, skipping said access.
2. The method of claim 1, further comprising: in case, no link is assigned to said ID, deleting said ID from said first lock object.
3. The method of claim 1 or 2 , wherein said first lock object is a file stored on a nonvolatile storage means.
4. The method of one of claims 1 to 3, wherein said first lock object comprises a table, having a column for the ID and a column for the link of the ID to a storage means .
5. The method of one of claims 1 to 4, wherein a data object comprises one ore more fields of one or more tables and wherein the ID comprises one or more key fields of the one or more tables.
6. The method of one of claims 1 to 5 , wherein said link is a filename or a link to a file.
7. The method of one of claims 1 to 6 , wherein said first lock object is created by an data moving process.
8. The method one of claims 1 to 7 , further comprising: before performing said check, storing said ID in a second lock object, which is stored in a volatile storage means .
9. The method of claim 8, further comprising: checking, whether the ID has been successfully stored in the second lock object, and in case no, skipping accessing the data object.
10. The method of claim 8 or 9, wherein said second lock object is a data array.
11. The method of one of claims 8 to 10, wherein said data array is one dimensional .
12. The method of one of claims 1 to 11 for use in an enterprise resource planning software.
13. A computer system for processing data by means of or in a software application, comprising:
- memory for storing program instructions; - input means for entering data;
- storage means for storing data;
- a processor responsive to program instructions
- programm instructions to carry out a method as of any of claims 1 to 12.
14. A computer program comprising program code means for performing a method as of any of claims 1 to 12 if said program is executed on a computer system.
15. A computer readable medium comprising program code for performing a method as of any of claims 1 to 12 if said program code is executed on a computer system.
16. A computer program product comprising a computer readable medium according to claim 15.
17. A computer data signal embodied in a carrier wave comprising: program code for performing a method as of any of claims 1 to 12 if said program code is executed on a computer system.
PCT/EP2003/009827 2002-09-09 2003-09-04 Methods and systems for controlling access to a data object by means of locks WO2004025502A1 (en)

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DE60306674T DE60306674T2 (en) 2002-09-09 2003-09-04 METHOD AND SYSTEMS FOR REGULATING ACCESS TO A DATA OBJECT BY LOCKING
US10/526,750 US20060149696A1 (en) 2002-09-09 2003-09-04 Method and systems for controlling access to a data object by means of locks

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US60/408,902 2002-09-09
US60/408,905 2002-09-09
US60/408,901 2002-09-09
US60/408,903 2002-09-09
US40960602P 2002-09-11 2002-09-11
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