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Disk image

January 31, 2023

"CD image" redirects here. For ISO 9660 image files, see ISO image.

A disk image is a snapshot of a storage device's structure and data typically stored in one or more computer files on another storage device.[1][2] Traditionally, disk images were bit-by-bit copies of every sector on a hard disk often created for digital forensic purposes, but it is now common to only copy allocated data to reduce storage space.[3][4] Compression and deduplication are commonly used to reduce the size of the image file set.[3][5] Disk imaging is done for a variety of purposes including digital forensics,[6][2] cloud computing,[7] system administration,[8] as part of a backup strategy,[1] and legacy emulation as part of a digital preservation strategy.[9] Disk images can be made in a variety of formats depending on the purpose. Virtual disk images (such as VHD and VMDK) are intended to be used for cloud computing,[10][11] ISO images are intended to emulate optical media[12] and RAW disk images are used for forensic purposes.[2] Proprietary formats are typically used by disk imaging software. Despite the benefits of disk imaging the storage costs can be high,[3] management can be difficult[6] and they can be time consuming to create.[13][9]

Background

Disk images were originally (in the late 1960s) used for backup and disk cloning of mainframe disk media. The early ones were as small as 5 megabytes and as large as 330 megabytes, and the copy medium was magnetic tape, which ran as large as 200 megabytes per reel.[14] Disk images became much more popular when floppy disk media became popular, where replication or storage of an exact structure was necessary and efficient, especially in the case of copy protected floppy disks.

Disk image creation is called disk imaging and is often time consuming, even with a fast computer, because the entire disk must be copied.[13] Typically, disk imaging requires a third party disk imaging program or backup software. The software required varies according to the type of disk image that needs to be created. For example, RawWrite and WinImage create floppy disk image files for MS-DOS and Microsoft Windows.[15][16] In Unix or similar systems the dd program can be used to create raw disk images.[2] Apple Disk Copy can be used on Classic Mac OS and macOS systems to create and write disk image files.

Authoring software for CDs/DVDs such as Nero Burning ROM can generate and load disk images for optical media. A virtual disk writer or virtual burner is a computer program that emulates an actual disc authoring device such as a CD writer or DVD writer. Instead of writing data to an actual disc, it creates a virtual disk image.[17][18] A virtual burner, by definition, appears as a disc drive in the system with writing capabilities (as opposed to conventional disc authoring programs that can create virtual disk images), thus allowing software that can burn discs to create virtual discs.[19]

Uses

Digital forensics

Forensic imaging is the process of creating a bit-by-bit copy of the data on the drive, including files, metadata, volume information, filesystems and their structure.[2] Often, these images are also hashed to verify their integrity and that they have not been altered since being created. Unlike disk imaging for other purposes, digital forensic applications take a bit-by-bit copy to ensure forensic soundness. The purposes of imaging the disk is to not only discover evidence preserved in digital information but also to examine the drive to gather clues of how the crime was committed.

Cloud computing

In cloud computing, creating a disk image of optical media or a hard disk drive is typically done to make the content available to one or more virtual machines. Virtual machines emulate a CD/DVD drive by reading an ISO image. This can also be faster than reading from the physical optical medium.[20] Further, there are less issues with wear and tear. A hard disk drive or solid-state drive in a virtual machine is implemented as a disk image (i.e. either the VHD format used by Microsoft's Hyper-V, the VDI format used by Oracle Corporation's VirtualBox, the VMDK format used for VMware virtual machines, or the QCOW format used by QEMU). Virtual hard disk images tend to be stored as either a collection of files (where each one is typically 2GB in size), or as a single file. Virtual machines treat the image set as a physical drive.

System administration

Rapid deployment of clone systems

Educational institutions and businesses can often need to buy or replace computer systems in large numbers. Disk imaging is commonly used to deploy the same configuration across workstations.[8] Typically, disk imaging software (such as Ghost or Clonezilla) is used to make an image of a completely configured system.[21] This image is then written to a computer's hard disk which is sometimes described as restoring an image.[22] This restoration is sometimes done over a computer network using multicasting or BitTorrent to devices that need to have their configuration restored.[23][22] This reduces the need to maintain and update individual systems manually. Imaging is also easier than automated setup methods because an administrator does not need to have knowledge of the prior configuration to copy it.[22] Disk imaging requires for all devices to be identical and provides no flexibility in adjusting the configuration.

Network-based image deployment typically uses a PXE server to boot a minimal operating system over the network that contains the necessary components to image or restore storage media in a computer.[23] This is usually used in conjunction with a DHCP server to automate the configuration of network parameters including IP addresses. Typically, multicasting, broadcasting or unicasting is used to restore an image to many computers at a time but these approaches do not work well if one or more computers experience a problem such as UDP packet loss.[22] As a result, some imaging solutions instead use the BitTorret protocol to transfer the data.

Backup strategy

See also: System image and Backup and Restore (for Windows Vista and later)

A disk image contains all files, faithfully replicating all data, including file attributes and the file fragmentation state. For this reason, it is also used for backing up optical media (CDs and DVDs, etc.), and allows the exact and efficient recovery after experimenting with modifications to a system or virtual machine. Typically, disk imaging can be used to quickly restore an entire system to an operational state after a disaster.[24]

Digital preservation

Libraries and museums are typically required to archive and digitally preserve information without altering it in any manner.[9][25] Emulators frequently use disk images to emulate floppy disks that have been preserved. This is usually simpler to program than accessing a real floppy drive (particularly if the disks are in a format not supported by the host operating system), and allows a large library of software to be managed. Emulation also allows existing disk images to be put into a usable form even though the data contained in the image is no longer readable without emulation.[12]

Limitations

Disk images can sometimes be slower than reading from the disk directly because of a performance overhead.[3] Other limitations can be the lack of access to software required to read the contents of the image. For example, prior to Windows 8, third party software was required to mount disk images.[26][27] Disk imaging is time consuming and the space requirements are high. When imaging multiple computers with only minor differences, much data is duplicated unnecessarily, wasting space.[3]

Speed and failure

Disk imaging can be slow, especially for older storage devices. A typical 4.7 GB DVD can take an average of 18 minutes to duplicate.[9] Floppy disks read and write much slower than hard disks. Therefore, despite their small size, it can take several minutes to copy a single disk. In some cases, disk imaging can fail due to bad sectors or physical wear and tear on the source device.[12] Utilities such as dd are not designed to recognize or cope with failures. Therefore, any failure results in being unable to create an image of the drive.[25]

See also

References

  1. ^ a b Colloton, Eddy; Farbowitz, Jonathan; Rodríguez, Caroline Gil (2022-11-02). "Disk Imaging as a Backup Tool for Digital Objects". Conservation of Time-Based Media Art: 204–222. doi:10.4324/9781003034865-17. ISBN 9781003034865.
  2. ^ a b c d e Woods, Kam; Lee, Christopher A.; Garfinkel, Simson (2011-06-13). "Extending digital repository architectures to support disk image preservation and access". Proceedings of the 11th Annual International ACM/IEEE Joint Conference on Digital Libraries. JCDL '11. New York, NY, USA: Association for Computing Machinery: 57–66. doi:10.1145/1998076.1998088. ISBN 978-1-4503-0744-4. S2CID 2628912.
  3. ^ a b c d e Pullakandam, R., Lin, X., Hibler, M., Eide, E., & Ricci, R. High-performance Disk Imaging With Deduplicated Storage.
  4. ^ Kävrestad, Joakim (2017), Kävrestad, Joakim (ed.), "Vocabulary", Guide to Digital Forensics: A Concise and Practical Introduction, SpringerBriefs in Computer Science, Cham: Springer International Publishing, pp. 125–126, doi:10.1007/978-3-319-67450-6_12, ISBN 978-3-319-67450-6, retrieved 2023-01-12
  5. ^ Lee, Sang Su; Kyong, Un Sung; Hong, Do Won (2008). "A high speed disk imaging system". 2008 IEEE International Symposium on Consumer Electronics: 1–3. doi:10.1109/ISCE.2008.4559553. S2CID 5932241.
  6. ^ a b Garfinkel, Simson L. (2009). "Automating Disk Forensic Processing with SleuthKit, XML and Python". 2009 Fourth International IEEE Workshop on Systematic Approaches to Digital Forensic Engineering: 73–84. doi:10.1109/SADFE.2009.12. ISBN 978-0-7695-3792-4. S2CID 1624033.
  7. ^ Kazim, Muhammad; Masood, Rahat; Shibli, Muhammad Awais (2013-11-26). "Securing the virtual machine images in cloud computing". Proceedings of the 6th International Conference on Security of Information and Networks. SIN '13. New York, NY, USA: Association for Computing Machinery: 425–428. doi:10.1145/2523514.2523576. ISBN 978-1-4503-2498-4. S2CID 2474546.
  8. ^ a b Blackham, N., & Higby, C., & Bailey, M. (2004, June), Re Imaging Computers For Multipurpose Labs , 2004 Annual Conference, Salt Lake City, Utah. 10.18260/1-2--14125
  9. ^ a b c d Day, Michael; Pennock, Maureen; May, Peter; Davies, Kevin; Whibley, Simon; Kimura, Akiko; Halvarsson, Edith (2016). "The preservation of disk-based content at the British Library: Lessons from the Flashback project". Alexandria: The Journal of National and International Library and Information Issues. 26 (3): 216–234. doi:10.1177/0955749016669775. ISSN 0955-7490. S2CID 63617004.
  10. ^ Arunkumar, G.; Venkataraman., Neelanarayanan (2015-01-01). "A Novel Approach to Address Interoperability Concern in Cloud Computing". Procedia Computer Science. Big Data, Cloud and Computing Challenges. 50: 554–559. doi:10.1016/j.procs.2015.04.083. ISSN 1877-0509.
  11. ^ Barrowclough, John Patrick; Asif, Rameez (2018-06-11). "Securing Cloud Hypervisors: A Survey of the Threats, Vulnerabilities, and Countermeasures". Security and Communication Networks. 2018: e1681908. doi:10.1155/2018/1681908. ISSN 1939-0114.
  12. ^ a b c Colloton, E., Farbowitz, J., Fortunato, F., & Gil, C. (2019). Towards Best Practices In Disk Imaging: A Cross-Institutional Approach. Electronic Media Review, 2019-2020.
  13. ^ a b Stewart, Dawid; Arvidsson, Alex (2022). Need for speed : A study of the speed of forensic disk imaging tools.
  14. ^ (PDF). Archived from the original (PDF) on 2014-07-01. Retrieved 2014-06-17.
  15. ^ McCune, Mike (2000). Integrating Linux and Windows. Prentice Hall Professional. ISBN 978-0-13-030670-8.
  16. ^ Li, Hongwei; Yin, Changhong; Xu, Yaping; Guo, Qingjun (2010). "Construction of the Practical Teaching System on Operating Systems Course". 2010 Second International Workshop on Education Technology and Computer Science. 1: 405–408. doi:10.1109/ETCS.2010.184. ISBN 978-1-4244-6388-6. S2CID 15706012.
  17. ^ . Phantombility, Inc. Archived from the original on 19 August 2011. Retrieved 19 July 2011.
  18. ^ "Virtual CD - The original for your PC". Virtual CD website. H+H Software GmbH. from the original on 24 September 2011. Retrieved 19 July 2011.
  19. ^ "Virtual CD/DVD-Writer Device". SourceForge. Geeknet, Inc. from the original on 17 February 2011. Retrieved 19 July 2011.
  20. ^
  21. ^ Bowling, Jeramiah (2011-01-01). "Clonezilla: build, clone, repeat". Linux Journal. 2011 (201): 6:6. ISSN 1075-3583.
  22. ^ a b c d Shiau, Steven J. H.; Huang, Yu-Chiang; Tsai, Yu-Chin; Sun, Chen-Kai; Yen, Ching-Hsuan; Huang, Chi-Yo (2021). "A BitTorrent Mechanism-Based Solution for Massive System Deployment". IEEE Access. 9: 21043–21058. doi:10.1109/ACCESS.2021.3052525. ISSN 2169-3536. S2CID 231851821.
  23. ^ a b Shiau, Steven J. H.; Sun, Chen-Kai; Tsai, Yu-Chin; Juang, Jer-Nan; Huang, Chi-Yo (2018). "The Design and Implementation of a Novel Open Source Massive Deployment System". Applied Sciences. 8 (6): 965. doi:10.3390/app8060965. ISSN 2076-3417.
  24. ^ "Fast, Scalable Disk Imaging with Frisbee". www.cs.utah.edu. Retrieved 2023-01-12.
  25. ^ a b Durno, John; Trofimchuk, Jerry (2015-01-21). "Digital forensics on a shoestring: a case study from the University of Victoria". The Code4Lib Journal (27). ISSN 1940-5758.
  26. ^ "Accessing data in ISO and VHD files". Building Windows 8 (TechNet Blogs). Microsoft. 30 August 2011. from the original on 19 April 2012. Retrieved 27 April 2012.
  27. ^ "Mount-DiskImage". Storage Cmdlets (TechNet). Microsoft. from the original on 2017-12-01.

External links

  • Software repository including RAWRITE2



January 31, 2023
disk, image, image, redirects, here, 9660, image, files, image, disk, image, snapshot, storage, device, structure, data, typically, stored, more, computer, files, another, storage, device, traditionally, disk, images, were, copies, every, sector, hard, disk, o. CD image redirects here For ISO 9660 image files see ISO image A disk image is a snapshot of a storage device s structure and data typically stored in one or more computer files on another storage device 1 2 Traditionally disk images were bit by bit copies of every sector on a hard disk often created for digital forensic purposes but it is now common to only copy allocated data to reduce storage space 3 4 Compression and deduplication are commonly used to reduce the size of the image file set 3 5 Disk imaging is done for a variety of purposes including digital forensics 6 2 cloud computing 7 system administration 8 as part of a backup strategy 1 and legacy emulation as part of a digital preservation strategy 9 Disk images can be made in a variety of formats depending on the purpose Virtual disk images such as VHD and VMDK are intended to be used for cloud computing 10 11 ISO images are intended to emulate optical media 12 and RAW disk images are used for forensic purposes 2 Proprietary formats are typically used by disk imaging software Despite the benefits of disk imaging the storage costs can be high 3 management can be difficult 6 and they can be time consuming to create 13 9 Contents 1 Background 2 Uses 2 1 Digital forensics 2 2 Cloud computing 2 3 System administration 2 3 1 Rapid deployment of clone systems 2 4 Backup strategy 2 5 Digital preservation 3 Limitations 3 1 Speed and failure 4 See also 5 References 6 External linksBackground EditDisk images were originally in the late 1960s used for backup and disk cloning of mainframe disk media The early ones were as small as 5 megabytes and as large as 330 megabytes and the copy medium was magnetic tape which ran as large as 200 megabytes per reel 14 Disk images became much more popular when floppy disk media became popular where replication or storage of an exact structure was necessary and efficient especially in the case of copy protected floppy disks Disk image creation is called disk imaging and is often time consuming even with a fast computer because the entire disk must be copied 13 Typically disk imaging requires a third party disk imaging program or backup software The software required varies according to the type of disk image that needs to be created For example RawWrite and WinImage create floppy disk image files for MS DOS and Microsoft Windows 15 16 In Unix or similar systems the dd program can be used to create raw disk images 2 Apple Disk Copy can be used on Classic Mac OS and macOS systems to create and write disk image files Authoring software for CDs DVDs such as Nero Burning ROM can generate and load disk images for optical media A virtual disk writer or virtual burner is a computer program that emulates an actual disc authoring device such as a CD writer or DVD writer Instead of writing data to an actual disc it creates a virtual disk image 17 18 A virtual burner by definition appears as a disc drive in the system with writing capabilities as opposed to conventional disc authoring programs that can create virtual disk images thus allowing software that can burn discs to create virtual discs 19 Uses EditDigital forensics Edit Forensic imaging is the process of creating a bit by bit copy of the data on the drive including files metadata volume information filesystems and their structure 2 Often these images are also hashed to verify their integrity and that they have not been altered since being created Unlike disk imaging for other purposes digital forensic applications take a bit by bit copy to ensure forensic soundness The purposes of imaging the disk is to not only discover evidence preserved in digital information but also to examine the drive to gather clues of how the crime was committed Cloud computing Edit In cloud computing creating a disk image of optical media or a hard disk drive is typically done to make the content available to one or more virtual machines Virtual machines emulate a CD DVD drive by reading an ISO image This can also be faster than reading from the physical optical medium 20 Further there are less issues with wear and tear A hard disk drive or solid state drive in a virtual machine is implemented as a disk image i e either the VHD format used by Microsoft s Hyper V the VDI format used by Oracle Corporation s VirtualBox the VMDK format used for VMware virtual machines or the QCOW format used by QEMU Virtual hard disk images tend to be stored as either a collection of files where each one is typically 2GB in size or as a single file Virtual machines treat the image set as a physical drive System administration Edit Rapid deployment of clone systems Edit Educational institutions and businesses can often need to buy or replace computer systems in large numbers Disk imaging is commonly used to deploy the same configuration across workstations 8 Typically disk imaging software such as Ghost or Clonezilla is used to make an image of a completely configured system 21 This image is then written to a computer s hard disk which is sometimes described as restoring an image 22 This restoration is sometimes done over a computer network using multicasting or BitTorrent to devices that need to have their configuration restored 23 22 This reduces the need to maintain and update individual systems manually Imaging is also easier than automated setup methods because an administrator does not need to have knowledge of the prior configuration to copy it 22 Disk imaging requires for all devices to be identical and provides no flexibility in adjusting the configuration Network based image deployment typically uses a PXE server to boot a minimal operating system over the network that contains the necessary components to image or restore storage media in a computer 23 This is usually used in conjunction with a DHCP server to automate the configuration of network parameters including IP addresses Typically multicasting broadcasting or unicasting is used to restore an image to many computers at a time but these approaches do not work well if one or more computers experience a problem such as UDP packet loss 22 As a result some imaging solutions instead use the BitTorret protocol to transfer the data Backup strategy Edit See also System image and Backup and Restore for Windows Vista and later A disk image contains all files faithfully replicating all data including file attributes and the file fragmentation state For this reason it is also used for backing up optical media CDs and DVDs etc and allows the exact and efficient recovery after experimenting with modifications to a system or virtual machine Typically disk imaging can be used to quickly restore an entire system to an operational state after a disaster 24 Digital preservation Edit Libraries and museums are typically required to archive and digitally preserve information without altering it in any manner 9 25 Emulators frequently use disk images to emulate floppy disks that have been preserved This is usually simpler to program than accessing a real floppy drive particularly if the disks are in a format not supported by the host operating system and allows a large library of software to be managed Emulation also allows existing disk images to be put into a usable form even though the data contained in the image is no longer readable without emulation 12 Limitations EditDisk images can sometimes be slower than reading from the disk directly because of a performance overhead 3 Other limitations can be the lack of access to software required to read the contents of the image For example prior to Windows 8 third party software was required to mount disk images 26 27 Disk imaging is time consuming and the space requirements are high When imaging multiple computers with only minor differences much data is duplicated unnecessarily wasting space 3 Speed and failure Edit Disk imaging can be slow especially for older storage devices A typical 4 7 GB DVD can take an average of 18 minutes to duplicate 9 Floppy disks read and write much slower than hard disks Therefore despite their small size it can take several minutes to copy a single disk In some cases disk imaging can fail due to bad sectors or physical wear and tear on the source device 12 Utilities such as dd are not designed to recognize or cope with failures Therefore any failure results in being unable to create an image of the drive 25 See also EditBoot image Card image Comparison of disc image software Disk cloning El Torito CD ROM standard ISO image an archive file of an optical media volume Loop device Mtools no CD crack Protected Area Run Time Interface Extension Services PARTIES ROM image Software crackingReferences Edit a b Colloton Eddy Farbowitz Jonathan Rodriguez Caroline Gil 2022 11 02 Disk Imaging as a Backup Tool for Digital Objects Conservation of Time Based Media Art 204 222 doi 10 4324 9781003034865 17 ISBN 9781003034865 a b c d e Woods Kam Lee Christopher A Garfinkel Simson 2011 06 13 Extending digital repository architectures to support disk image preservation and access Proceedings of the 11th Annual International ACM IEEE Joint Conference on Digital Libraries JCDL 11 New York NY USA Association for Computing Machinery 57 66 doi 10 1145 1998076 1998088 ISBN 978 1 4503 0744 4 S2CID 2628912 a b c d e Pullakandam R Lin X Hibler M Eide E amp Ricci R High performance Disk Imaging With Deduplicated Storage Kavrestad Joakim 2017 Kavrestad Joakim ed Vocabulary Guide to Digital Forensics A Concise and Practical Introduction SpringerBriefs in Computer Science Cham Springer International Publishing pp 125 126 doi 10 1007 978 3 319 67450 6 12 ISBN 978 3 319 67450 6 retrieved 2023 01 12 Lee Sang Su Kyong Un Sung Hong Do Won 2008 A high speed disk imaging system 2008 IEEE International Symposium on Consumer Electronics 1 3 doi 10 1109 ISCE 2008 4559553 S2CID 5932241 a b Garfinkel Simson L 2009 Automating Disk Forensic Processing with SleuthKit XML and Python 2009 Fourth International IEEE Workshop on Systematic Approaches to Digital Forensic Engineering 73 84 doi 10 1109 SADFE 2009 12 ISBN 978 0 7695 3792 4 S2CID 1624033 Kazim Muhammad Masood Rahat Shibli Muhammad Awais 2013 11 26 Securing the virtual machine images in cloud computing Proceedings of the 6th International Conference on Security of Information and Networks SIN 13 New York NY USA Association for Computing Machinery 425 428 doi 10 1145 2523514 2523576 ISBN 978 1 4503 2498 4 S2CID 2474546 a b Blackham N amp Higby C amp Bailey M 2004 June Re Imaging Computers For Multipurpose Labs 2004 Annual Conference Salt Lake City Utah 10 18260 1 2 14125 a b c d Day Michael Pennock Maureen May Peter Davies Kevin Whibley Simon Kimura Akiko Halvarsson Edith 2016 The preservation of disk based content at the British Library Lessons from the Flashback project Alexandria The Journal of National and International Library and Information Issues 26 3 216 234 doi 10 1177 0955749016669775 ISSN 0955 7490 S2CID 63617004 Arunkumar G Venkataraman Neelanarayanan 2015 01 01 A Novel Approach to Address Interoperability Concern in Cloud Computing Procedia Computer Science Big Data Cloud and Computing Challenges 50 554 559 doi 10 1016 j procs 2015 04 083 ISSN 1877 0509 Barrowclough John Patrick Asif Rameez 2018 06 11 Securing Cloud Hypervisors A Survey of the Threats Vulnerabilities and Countermeasures Security and Communication Networks 2018 e1681908 doi 10 1155 2018 1681908 ISSN 1939 0114 a b c Colloton E Farbowitz J Fortunato F amp Gil C 2019 Towards Best Practices In Disk Imaging A Cross Institutional Approach Electronic Media Review 2019 2020 a b Stewart Dawid Arvidsson Alex 2022 Need for speed A study of the speed of forensic disk imaging tools IBM Mainframe Operating Systems PDF Archived from the original PDF on 2014 07 01 Retrieved 2014 06 17 McCune Mike 2000 Integrating Linux and Windows Prentice Hall Professional ISBN 978 0 13 030670 8 Li Hongwei Yin Changhong Xu Yaping Guo Qingjun 2010 Construction of the Practical Teaching System on Operating Systems Course 2010 Second International Workshop on Education Technology and Computer Science 1 405 408 doi 10 1109 ETCS 2010 184 ISBN 978 1 4244 6388 6 S2CID 15706012 Phantom Burner Overview Phantombility Inc Archived from the original on 19 August 2011 Retrieved 19 July 2011 Virtual CD The original for your PC Virtual CD website H H Software GmbH Archived from the original on 24 September 2011 Retrieved 19 July 2011 Virtual CD DVD Writer Device SourceForge Geeknet Inc Archived from the original on 17 February 2011 Retrieved 19 July 2011 pcguide com Access Time Bowling Jeramiah 2011 01 01 Clonezilla build clone repeat Linux Journal 2011 201 6 6 ISSN 1075 3583 a b c d Shiau Steven J H Huang Yu Chiang Tsai Yu Chin Sun Chen Kai Yen Ching Hsuan Huang Chi Yo 2021 A BitTorrent Mechanism Based Solution for Massive System Deployment IEEE Access 9 21043 21058 doi 10 1109 ACCESS 2021 3052525 ISSN 2169 3536 S2CID 231851821 a b Shiau Steven J H Sun Chen Kai Tsai Yu Chin Juang Jer Nan Huang Chi Yo 2018 The Design and Implementation of a Novel Open Source Massive Deployment System Applied Sciences 8 6 965 doi 10 3390 app8060965 ISSN 2076 3417 Fast Scalable Disk Imaging with Frisbee www cs utah edu Retrieved 2023 01 12 a b Durno John Trofimchuk Jerry 2015 01 21 Digital forensics on a shoestring a case study from the University of Victoria The Code4Lib Journal 27 ISSN 1940 5758 Accessing data in ISO and VHD files Building Windows 8 TechNet Blogs Microsoft 30 August 2011 Archived from the original on 19 April 2012 Retrieved 27 April 2012 Mount DiskImage Storage Cmdlets TechNet Microsoft Archived from the original on 2017 12 01 External links EditSoftware repository including RAWRITE2 Retrieved from https en wikipedia org w index php title Disk image amp oldid 1136333392 Virtualization, wikipedia, wiki, book, books, library,

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