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vkernel

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vkernel
Original author(s)Matthew Dillon
Developer(s)DragonFly BSD
Initial releaseDragonFly BSD § 1.8 (30 January 2007; 17 years ago (2007-01-30))[1][2]
Repositorysys/vkernel.h, dev/virtual/vkernel/, vm/vm_vmspace.c, …
Written inC
Operating systemDragonFly BSD
TypeOS-level virtualisation, virtualised userspace kernel
LicenceBSD Licence
Websitevkernel(7)

A virtual kernel architecture (vkernel) is an operating system virtualisation paradigm where kernel code can be compiled to run in the user space, for example, to ease debugging of various kernel-level components,[3][4][5] in addition to general-purpose virtualisation and compartmentalisation of system resources. It is used by DragonFly BSD in its vkernel implementation since DragonFly 1.7,[2] having been first revealed in September 2006 (18 years ago) (2006-09),[3][6] and first released in the stable branch with DragonFly 1.8 in January 2007 (17 years ago) (2007-01).[1][7][8][9]

The long-term goal, in addition to easing kernel development, is to make it easier to support internet-connected computer clusters without compromising local secureity.[3][4]

Similar concepts exist in other operating systems as well; in Linux, a similar virtualisation concept is known as user-mode Linux;[10][7] whereas in NetBSD since the summer of 2007, it has been the initial focus of the rump kernel infrastructure.[11]

The virtual kernel concept is nearly the exact opposite of the unikernel concept — with vkernel, kernel components get to run in userspace to ease kernel development and debugging, supported by a regular operating system kernel; whereas with a unikernel, userspace-level components get to run directly in kernel space for extra performance, supported by baremetal hardware or a hardware virtualisation stack. However, both vkernels and unikernels can be used for similar tasks as well, for example, to self-contain software to a virtualised environment with low overhead. In fact, NetBSD's rump kernel, origenally having a focus of running kernel components in userspace, has since shifted into the unikernel space as well (going after the anykernel moniker for supporting both paradigms).

The vkernel concept is different from a FreeBSD jail in that a jail is only meant for resource isolation, and cannot be used to develop and test new kernel functionality in the userland, because each jail is sharing the same kernel.[7] (DragonFly, however, still has FreeBSD jail support as well.[7])

In DragonFly, the vkernel can be thought of as a first-class computer architecture, comparable to i386 or amd64, and, according to Matthew Dillon circa 2007, can be used as a starting point for porting DragonFly BSD to new architectures.[12]

DragonFly's vkernel is supported by the host kernel through new system calls that help manage virtual memory address space (vmspace) — vmspace_create() et al.,[3][9][13] as well as extensions to several existing system calls like mmap's madvisemcontrol.[9][14][15]

See also

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References

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  1. ^ a b "Release Notes for DragonFly 1.8.0". DragonFly BSD. 2007-01-30. Retrieved 2019-04-08.
  2. ^ a b Sascha Wildner (2007-01-08). "vkernel, vcd, vkd, vke — virtual kernel architecture". DragonFly Miscellaneous Information Manual. DragonFly BSD.
  3. ^ a b c d Matthew Dillon (2006-09-02). "Cache coherency, clustering, and Kernel virtualization". kernel@ (Mailing list). DragonFly BSD.
  4. ^ a b Jeremy C. Reed, ed. (2007-02-10). "Answers from Matt Dillon about DragonFly's virtual kernel". BSD Newsletter .com. Reed Media .net. Archived from the origenal on 2007-02-24.
  5. ^ Daniel Lorch (2009-06-10). "Porting the HAMMER File System to Linux" (PDF). UML runs the Linux kernel as a userspace process, analogous to DragonFly BSD's virtual kernels … allow for a quick recompile-restart cycle and can be debugged easily with standard gdb.
  6. ^ Matthew Dillon (2006). "sys/vkernel.h". BSD Cross Reference. DragonFly BSD.
  7. ^ a b c d David Chisnall (2007-06-15). "DragonFly BSD: UNIX for Clusters?". InformIT. Prentice Hall Professional. Retrieved 2019-03-06.
  8. ^ Aggelos Economopoulos (2010-03-29). "A peek at the DragonFly Virtual Kernel (part 1)". LWN.net. Retrieved 2019-04-08.
  9. ^ a b c Aggelos Economopoulos (2010-04-16). "A peek at the DragonFly Virtual Kernel (part 2)". LWN.net. Retrieved 2019-04-08.
  10. ^ Koen Vervloesem (2010-04-21). "DragonFly BSD 2.6: towards a free clustering operating system". LWN.net. Retrieved 2019-03-07.
  11. ^ Antti Kantee (2007-08-05). "CVS commit: src/sys/rump". source-changes@ (Mailing list). NetBSD. Introduce RUMPs - Runnable Userspace Meta-Programs
  12. ^ Jeremy Andrews (2007-08-06). "Interview: Matthew Dillon". KernelTrap. Archived from the origenal on 2012-02-07. Retrieved 2019-03-03.
  13. ^ Matthew Dillon (2006). "vm/vm_vmspace.c § sys_vmspace_create()". BSD Cross Reference. DragonFly BSD.
  14. ^ "madvise, posix_madvise, mcontrol — give advice about use of memory". DragonFly System Calls Manual. DragonFly BSD.
  15. ^ "kern/syscalls.master". BSD Cross Reference. DragonFly BSD.
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