Application virtualization

Application virtualization is software technology that encapsulates computer programs from the underlying operating system on which it is executed. A fully virtualized application is not installed in the traditional sense,[1] although it is still executed as if it were. The application behaves at runtime like it is directly interfacing with the original operating system and all the resources managed by it, but can be isolated or sandboxed to varying degrees.

In this context, the term "virtualization" refers to the artifact being encapsulated (application), which is quite different from its meaning in hardware virtualization, where it refers to the artifact being abstracted (physical hardware).

Description

Illustration of an application running in a native environment and running in an application virtualization environment

Full application virtualization requires a virtualization layer.[2] Application virtualization layers replace part of the runtime environment normally provided by the operating system. The layer intercepts all disk operations of virtualized applications and transparently redirects them to a virtualized location, often a single file.[3] The application remains unaware that it accesses a virtual resource instead of a physical one. Since the application is now working with one file instead of many files spread throughout the system, it becomes easy to run the application on a different computer and previously incompatible applications can be run side-by-side. Examples of this technology for the Windows platform include:

Benefits

Application virtualization allows applications to run in environments that do not suit the native application. For example, Wine allows some Microsoft Windows applications to run on Linux. CDE allows Linux applications to run on Linux distros in distro-agnostic way.[4][5]

Application virtualization reduces system integration and administration costs by maintaining a common software baseline across multiple diverse computers in an organization. Lesser integration protects the operating system and other applications from poorly written or buggy code. In some cases, it provides memory protection, IDE-style debugging features and may even run applications that are not written correctly, for example applications that try to store user data in a read-only system-owned location. (This feature assist in the implementation of the principle of least privilege by removing the requirement for end-users to have administrative privileges in order to run poorly written applications.) It allows incompatible applications to run side-by-side, at the same time[6] and with minimal regression testing against one another.[7] Isolating applications from the operating system has security benefits as well, as the exposure of the application does automatically entail the exposure of the entire OS.[6]

Application virtualization also enables simplified operating system migrations.[6] Applications can be transferred to removable media or between computers without the need of installing them, becoming portable software.[5][8]

Application virtualization uses fewer resources than a separate virtual machine.

Limitations

Not all computer programs can be virtualized. Some examples include applications that require a device driver (a form of integration with the OS) and 16-bit applications that need to run in shared memory space.[9] Anti-virus programs and applications that require heavy OS integration, such as WindowBlinds or StyleXP are difficult to virtualize.

Moreover, in software licensing, application virtualization bears great licensing pitfalls mainly because both the application virtualization software and the virtualized applications must be correctly licensed.[10]

While application virtualization can address file and Registry-level compatibility issues between legacy applications and newer operating systems, applications that don't manage the heap correctly will not execute on Windows Vista as they still allocate memory in the same way, regardless of whether they are virtualized or not.[11] For this reason, specialist application compatibility fixes (shims) may still be needed, even if the application is virtualized.[12]

Related technologies

Technology categories that fall under application virtualization include:

See also

References

  1. "Microsoft Application Virtualization Technical Overview". Microsoft.
  2. Husain, Amir. "How to build an Application Virtualization Framework". VDIworks. Retrieved 2008-07-01.
  3. Coby Gurr (2008-01-28). "Facilitating Microsoft Windows Vista Migration Through Application Virtualization" (PDF). Dell. Retrieved 2008-06-19.
  4. Guo, Philip J. (2011). "CDE: lightweight application virtualization for Linux". Retrieved 2012-11-26. CDE implements a form of lightweight application virtualization that allows you to easily distribute portable software, to deploy applications to the cloud, to make computational experiments reproducible, and to run software on non-native Linux distros without conflicts.
  5. 1 2 Guo, Philip J. (2011-06-01). "CDE: Using System Call Interposition to Automatically Create Portable Software Packages." (pdf). Proceedings of the 2011 USENIX Annual Technical Conference. Retrieved 2012-11-26.
  6. 1 2 3 4 "Desktop Virtualization Comes of Age" (PDF). Credit Suisse. 2007-11-26. Retrieved 2008-03-03.
  7. "Overview Series: Windows Vista Application Compatibility". Microsoft. Retrieved 2008-06-19.
  8. Domagoj Pernar (October 2009). "Application Virtualization Download repository, and how to make applications portable". V-irtualization.com. Retrieved 2009-10-30. External link in |publisher= (help)
  9. Peter Varhol (September 2007). "Application Virtualization Hits Its Stride". Redmondmag.com. Archived from the original on 10 June 2008. Retrieved 2008-06-19. External link in |publisher= (help)
  10. "Licensing pitfalls in application virtualization". OMTCO Operations Management Technology Consulting GmbH. Retrieved 20 May 2013.
  11. Adrian Marinescu (2006-07-14). "Windows Vista Heap Management Enhancements" (PDF). Microsoft. Retrieved 2008-06-19.
  12. Chris Jackson (2008-05-01). "Can You Shim Applications Virtualized in SoftGrid?". Microsoft. Archived from the original on 2 June 2008. Retrieved 2008-06-24.
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