Result for 28B715D246362A3369C97B6D486B7131C85CFFA5

Query result

Key	Value
FileName	./usr/share/doc/oomd/docs/auxiliary_plugins.md
FileSize	2209
MD5	D55456254C99625CB8075634EEE1E360
SHA-1	28B715D246362A3369C97B6D486B7131C85CFFA5
SHA-256	776286FBB9FED7BA0B377C5C00465F45EB16B260720F02CEC453409F23D0C14E
SSDEEP	48:X5cFH4yAUmFd8brDK6Hw8lpw8DFxe6g7nwogm0ogV:X+FfArsKEwGwaFGZQ
TLSH	T12541EF32692D56FAC3E302E13057E35573BC559AD052A0887D4442E45F8B6E9CA3FAB2
hashlookup:parent-total	15
hashlookup:trust	100

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Parents (Total: 15)

The searched file hash is included in 15 parent files which include package known and seen by metalookup. A sample is included below:

Key	Value
FileSize	165052
MD5	C5B87A9B6608B0737AAD97693F316581
PackageDescription	userspace Out-Of-Memory (OOM) killer for Linux systems oomd leverages PSI and cgroupv2 to monitor a system holistically. oomd then takes corrective action in userspace before an OOM occurs in kernel space. Corrective action is configured via a flexible plugin system, in which custom code can be written. By default, this involves killing offending processes. This enables an unparalleled level of flexibility where each workload can have custom protection rules. Furthermore, time spent livedlocked in kernelspace is minimized.
PackageMaintainer	Yangfl <mmyangfl@gmail.com>
PackageName	oomd
PackageSection	admin
PackageVersion	0.4.0-1+b1
SHA-1	3187F5C0726B3C0E2218AF6114EB01FEC7EFD02E
SHA-256	0BFFE9A4C5710B859DB2162636A5069CA5FEBA2600B0FEAD57C97A2D37F0426C

Key	Value
MD5	5508CC3B6339C000FF0CB36D48E5F7F8
PackageArch	aarch64
PackageDescription	Out of memory killing has historically happened inside kernel space. On a memory overcommitted linux system, malloc(2) and friends usually never fail. However, if an application dereferences the returned pointer and the system has run out of physical memory, the linux kernel is forced take extreme measures, up to and including killing processes. This is sometimes a slow and painful process because the kernel can spend an unbounded amount of time swapping in and out pages and evicting the page cache. Furthermore, configuring policy is not very flexible while being somewhat complicated. oomd aims to solve this problem in userspace. oomd leverages PSI and cgroupv2 to monitor a system holistically. oomd then takes corrective action in userspace before an OOM occurs in kernel space. Corrective action is configured via a flexible plugin system, in which custom code can be written. By default, this involves killing offending processes. This enables an unparalleled level of flexibility where each workload can have custom protection rules. Furthermore, time spent livedlocked in kernelspace is minimized.
PackageMaintainer	Fedora Project
PackageName	oomd
PackageRelease	6.fc34
PackageVersion	0.4.0
SHA-1	F9B4FB11CF4C036BBDD47E3346905C9282E42C8C
SHA-256	1B839C62C73729A7AEA92F64745A22CC7A031E173D0C0CD6C49D16B4D4C89515

Key	Value
FileSize	159452
MD5	559027839D6DD6249C36FB6036797B57
PackageDescription	userspace Out-Of-Memory (OOM) killer for Linux systems oomd leverages PSI and cgroupv2 to monitor a system holistically. oomd then takes corrective action in userspace before an OOM occurs in kernel space. Corrective action is configured via a flexible plugin system, in which custom code can be written. By default, this involves killing offending processes. This enables an unparalleled level of flexibility where each workload can have custom protection rules. Furthermore, time spent livedlocked in kernelspace is minimized.
PackageMaintainer	Yangfl <mmyangfl@gmail.com>
PackageName	oomd
PackageSection	admin
PackageVersion	0.4.0-1+b1
SHA-1	FC5FCC91D04E903FACDDA6D1C593DAF07C697FD8
SHA-256	7C282EFD33D8199C2A28A93DCF099DD2733AEC7C68B52317CF08F3A350500552

Key	Value
FileSize	176684
MD5	93130EC577A2AA92211CDBF616327707
PackageDescription	userspace Out-Of-Memory (OOM) killer for Linux systems oomd leverages PSI and cgroupv2 to monitor a system holistically. oomd then takes corrective action in userspace before an OOM occurs in kernel space. Corrective action is configured via a flexible plugin system, in which custom code can be written. By default, this involves killing offending processes. This enables an unparalleled level of flexibility where each workload can have custom protection rules. Furthermore, time spent livedlocked in kernelspace is minimized.
PackageMaintainer	Yangfl <mmyangfl@gmail.com>
PackageName	oomd
PackageSection	admin
PackageVersion	0.4.0-1+b1
SHA-1	7B4C7ADE29CC372B84D5450C29811D909FF026B5
SHA-256	A03076BC669CEEC35846AEAAA608281711E4F8EB997E18A8B355FF96DBDBCC93

Key	Value
FileSize	170556
MD5	B5292362742910BE992BC7DBFC359E17
PackageDescription	userspace Out-Of-Memory (OOM) killer for Linux systems oomd leverages PSI and cgroupv2 to monitor a system holistically. oomd then takes corrective action in userspace before an OOM occurs in kernel space. Corrective action is configured via a flexible plugin system, in which custom code can be written. By default, this involves killing offending processes. This enables an unparalleled level of flexibility where each workload can have custom protection rules. Furthermore, time spent livedlocked in kernelspace is minimized.
PackageMaintainer	Yangfl <mmyangfl@gmail.com>
PackageName	oomd
PackageSection	admin
PackageVersion	0.4.0-1+b1
SHA-1	62693479B99E0D04703F358D0EC4BC201532F20E
SHA-256	AB6E88035CB194DFE5615F54F9F8208DD521CED25E9315F1753786BD8121C510

Key	Value
FileSize	176940
MD5	F28A120A0A042D32CE68BB91DF419A94
PackageDescription	userspace Out-Of-Memory (OOM) killer for Linux systems oomd leverages PSI and cgroupv2 to monitor a system holistically. oomd then takes corrective action in userspace before an OOM occurs in kernel space. Corrective action is configured via a flexible plugin system, in which custom code can be written. By default, this involves killing offending processes. This enables an unparalleled level of flexibility where each workload can have custom protection rules. Furthermore, time spent livedlocked in kernelspace is minimized.
PackageMaintainer	Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com>
PackageName	oomd
PackageSection	admin
PackageVersion	0.4.0-1
SHA-1	AAE10826BA0F4936343B1AFFF966B18D9A05CD91
SHA-256	D93643AB4D0FD26EB402765B0156E7E8AC12A9ABA785BEC3C91D93EFA404D280

Key	Value
FileSize	156728
MD5	7DBCF60808C7780A84D583D20A04067E
PackageDescription	userspace Out-Of-Memory (OOM) killer for Linux systems oomd leverages PSI and cgroupv2 to monitor a system holistically. oomd then takes corrective action in userspace before an OOM occurs in kernel space. Corrective action is configured via a flexible plugin system, in which custom code can be written. By default, this involves killing offending processes. This enables an unparalleled level of flexibility where each workload can have custom protection rules. Furthermore, time spent livedlocked in kernelspace is minimized.
PackageMaintainer	Yangfl <mmyangfl@gmail.com>
PackageName	oomd
PackageSection	admin
PackageVersion	0.4.0-1+b1
SHA-1	8E221B3488CA523C9B3554EB007DCE51CC0C7E20
SHA-256	A061F37DE125350E7CB7CD89AAED148A9BC6141F2F5EF82B45F9E2207B6AC8FE

Key	Value
FileSize	151244
MD5	0A03D140EE0D141BDC907108B97AFF20
PackageDescription	userspace Out-Of-Memory (OOM) killer for Linux systems oomd leverages PSI and cgroupv2 to monitor a system holistically. oomd then takes corrective action in userspace before an OOM occurs in kernel space. Corrective action is configured via a flexible plugin system, in which custom code can be written. By default, this involves killing offending processes. This enables an unparalleled level of flexibility where each workload can have custom protection rules. Furthermore, time spent livedlocked in kernelspace is minimized.
PackageMaintainer	Yangfl <mmyangfl@gmail.com>
PackageName	oomd
PackageSection	admin
PackageVersion	0.4.0-1+b1
SHA-1	C0218696FD9885CDA2EAD65842AF58DF4EA0B04F
SHA-256	40FAEA532E573D245317D1ED5F9572FB7566BE354FED6E7431F84D50F114BBA4

Key	Value
FileSize	160532
MD5	3A84AA25996337F9EBDF7783239E2863
PackageDescription	userspace Out-Of-Memory (OOM) killer for Linux systems oomd leverages PSI and cgroupv2 to monitor a system holistically. oomd then takes corrective action in userspace before an OOM occurs in kernel space. Corrective action is configured via a flexible plugin system, in which custom code can be written. By default, this involves killing offending processes. This enables an unparalleled level of flexibility where each workload can have custom protection rules. Furthermore, time spent livedlocked in kernelspace is minimized.
PackageMaintainer	Yangfl <mmyangfl@gmail.com>
PackageName	oomd
PackageSection	admin
PackageVersion	0.4.0-1+b1
SHA-1	787580D862DB5C94F9671F1165C958466F1ED560
SHA-256	4A01C9100D8C4CF7ECF8B44E178B555560165868F93A10A0011C3923414B1014

Key	Value
FileSize	176956
MD5	EEF8E246DA69E758D12407E5A2A0C467
PackageDescription	userspace Out-Of-Memory (OOM) killer for Linux systems oomd leverages PSI and cgroupv2 to monitor a system holistically. oomd then takes corrective action in userspace before an OOM occurs in kernel space. Corrective action is configured via a flexible plugin system, in which custom code can be written. By default, this involves killing offending processes. This enables an unparalleled level of flexibility where each workload can have custom protection rules. Furthermore, time spent livedlocked in kernelspace is minimized.
PackageMaintainer	Ubuntu Developers <ubuntu-devel-discuss@lists.ubuntu.com>
PackageName	oomd
PackageSection	admin
PackageVersion	0.4.0-1build1
SHA-1	7F7CAEEE28CE4E107286963BA9720984E6EDE2FC
SHA-256	9489927A2A90894AF514EECB8AE31EF52752AB3FF2D40BB645EE3ABB374950A2

Key	Value
FileSize	179996
MD5	B8565F3C988658A79E2B78531F2123CA
PackageDescription	userspace Out-Of-Memory (OOM) killer for Linux systems oomd leverages PSI and cgroupv2 to monitor a system holistically. oomd then takes corrective action in userspace before an OOM occurs in kernel space. Corrective action is configured via a flexible plugin system, in which custom code can be written. By default, this involves killing offending processes. This enables an unparalleled level of flexibility where each workload can have custom protection rules. Furthermore, time spent livedlocked in kernelspace is minimized.
PackageMaintainer	Yangfl <mmyangfl@gmail.com>
PackageName	oomd
PackageSection	admin
PackageVersion	0.4.0-1+b1
SHA-1	5A737D2B74A4A778E804DE12594BB9C0374387B1
SHA-256	AEFABC5E0B3680EB9D01A726801E0B930CE204D830F4ACC882635CDA9DFC0BC1

Key	Value
FileSize	195560
MD5	B027C11A5395AD0C751134935C1A35D9
PackageDescription	userspace Out-Of-Memory (OOM) killer for Linux systems oomd leverages PSI and cgroupv2 to monitor a system holistically. oomd then takes corrective action in userspace before an OOM occurs in kernel space. Corrective action is configured via a flexible plugin system, in which custom code can be written. By default, this involves killing offending processes. This enables an unparalleled level of flexibility where each workload can have custom protection rules. Furthermore, time spent livedlocked in kernelspace is minimized.
PackageMaintainer	Yangfl <mmyangfl@gmail.com>
PackageName	oomd
PackageSection	admin
PackageVersion	0.4.0-1+b1
SHA-1	E50759A89A341792FBEFAFE606969AEBEFD2A02E
SHA-256	6C05CF97DB835A3C7BB0CBEEF0274DC14C6989126F1E011E660847AC17351D77

Key	Value
MD5	7962A74EF90F9735FA133723E291EF5A
PackageArch	x86_64
PackageDescription	Out of memory killing has historically happened inside kernel space. On a memory overcommitted linux system, malloc(2) and friends usually never fail. However, if an application dereferences the returned pointer and the system has run out of physical memory, the linux kernel is forced take extreme measures, up to and including killing processes. This is sometimes a slow and painful process because the kernel can spend an unbounded amount of time swapping in and out pages and evicting the page cache. Furthermore, configuring policy is not very flexible while being somewhat complicated. oomd aims to solve this problem in userspace. oomd leverages PSI and cgroupv2 to monitor a system holistically. oomd then takes corrective action in userspace before an OOM occurs in kernel space. Corrective action is configured via a flexible plugin system, in which custom code can be written. By default, this involves killing offending processes. This enables an unparalleled level of flexibility where each workload can have custom protection rules. Furthermore, time spent livedlocked in kernelspace is minimized.
PackageMaintainer	Fedora Project
PackageName	oomd
PackageRelease	2.fc33
PackageVersion	0.4.0
SHA-1	0583ACD232F49704DA5D6362335EF635D21E032C
SHA-256	F37929394B1C93D55018C5040FC3E494B69016845A4604E70B978BBB276DEFE5

Key	Value
MD5	D1E10507AF5DCCC2A96815191FB54C88
PackageArch	x86_64
PackageDescription	Out of memory killing has historically happened inside kernel space. On a memory overcommitted linux system, malloc(2) and friends usually never fail. However, if an application dereferences the returned pointer and the system has run out of physical memory, the linux kernel is forced take extreme measures, up to and including killing processes. This is sometimes a slow and painful process because the kernel can spend an unbounded amount of time swapping in and out pages and evicting the page cache. Furthermore, configuring policy is not very flexible while being somewhat complicated. oomd aims to solve this problem in userspace. oomd leverages PSI and cgroupv2 to monitor a system holistically. oomd then takes corrective action in userspace before an OOM occurs in kernel space. Corrective action is configured via a flexible plugin system, in which custom code can be written. By default, this involves killing offending processes. This enables an unparalleled level of flexibility where each workload can have custom protection rules. Furthermore, time spent livedlocked in kernelspace is minimized.
PackageMaintainer	Fedora Project
PackageName	oomd
PackageRelease	6.fc34
PackageVersion	0.4.0
SHA-1	7249CE0F094D4BC5A94BBDE088B38254D9CA32AE
SHA-256	65F38939DC8CA16BC56CFA31DCAB432284EAA39F0F11519BA26A7205594BE357

Key	Value
MD5	09D0C557C7B28132790CF8386DFAA387
PackageArch	aarch64
PackageDescription	Out of memory killing has historically happened inside kernel space. On a memory overcommitted linux system, malloc(2) and friends usually never fail. However, if an application dereferences the returned pointer and the system has run out of physical memory, the linux kernel is forced take extreme measures, up to and including killing processes. This is sometimes a slow and painful process because the kernel can spend an unbounded amount of time swapping in and out pages and evicting the page cache. Furthermore, configuring policy is not very flexible while being somewhat complicated. oomd aims to solve this problem in userspace. oomd leverages PSI and cgroupv2 to monitor a system holistically. oomd then takes corrective action in userspace before an OOM occurs in kernel space. Corrective action is configured via a flexible plugin system, in which custom code can be written. By default, this involves killing offending processes. This enables an unparalleled level of flexibility where each workload can have custom protection rules. Furthermore, time spent livedlocked in kernelspace is minimized.
PackageMaintainer	Fedora Project
PackageName	oomd
PackageRelease	2.fc33
PackageVersion	0.4.0
SHA-1	364ABD84FFDA5EC084FC49639BB81D947AFED472
SHA-256	C8D6465F3D786F2B43446FABACE85B64F420B251F6FF4CE44FD5046C0D015CF8