Lines Matching full:its
148 is no longer referenced in its current hierarchy. Because per-cgroup
208 A process can be migrated into a cgroup by writing its PID to the
259 Marking a cgroup threaded makes it join the resource domain of its
310 A domain cgroup is turned into a threaded domain when one of its child
321 threaded domain, its operations are confined inside each threaded
335 threads in the cgroup and its descendants. All consumptions which
340 between threads in a non-leaf cgroup and its child cgroups. Each
349 live processes in it. Its value is 0 if there is no live process in
350 the cgroup and its descendants; otherwise, 1. poll and [id]notify
390 the target resource across its immediate children will be controlled.
398 of CPU cycles and memory to its children, in this case, B. As B has
449 cgroup must create children and transfer all its processes to the
450 children before enabling controllers in its "cgroup.subtree_control"
461 user by granting write access of the directory and its "cgroup.procs",
495 to migrate a target process into a cgroup by writing its PID to the
520 not have write access to its "cgroup.procs" files and thus the write
552 Interface files for a cgroup and its children cgroups occupy the same
580 active children and giving each the fraction matching the ratio of its
619 as long as the usages of all its ancestors are under their
714 - If a controller implements weight based resource distribution, its
864 cgroup to its children.
880 1 if the cgroup or its descendants contains any live
929 A cgroup can be frozen either by its own settings, or by settings
1089 and its descendants.
1096 is within its effective min boundary, the cgroup's memory
1108 the part of parent's protection proportional to its
1115 its memory.min is ignored.
1122 cgroup is within its effective low boundary, the cgroup's
1133 the part of parent's protection proportional to its
1171 all tasks belonging to the cgroup or to its descendants
1196 high memory pressure even though its usage is under
1220 Failed allocation in its turn could be returned into
1364 and its descendants.
1583 the cgroup can use in relation to its siblings.
1732 target the controller doesn't do anything. Once a group starts missing its
1750 Once the victimized group starts meeting its latency target again it will start
1788 controllers cannot prevent, thus warranting its own controller. For
1808 The number of processes currently in the cgroup and its
1832 cannot use CPUs or memory nodes not allowed in its parent.
1844 subjected to constraints imposed by its parent and can differ
1865 cgroup by its parent. These CPUs are allowed to be used by
1875 Its value will be affected by CPU hotplug events.
1883 is subjected to constraints imposed by its parent and can differ
1905 this cgroup by its parent. These memory nodes are allowed to
1914 Its value will be affected by memory nodes hotplug events.
1928 itself and all its descendants except those that are separate
1937 exclusive, i.e. they are not shared by any of its siblings.
1950 A parent partition cannot distribute all its CPUs to its
1957 partition and the new "cpuset.cpus" value is a superset of its
1983 can now be granted by its parent. In this case, the cpu
2029 Each line contains space separated resource name and its configured
2078 root cgroup. This child cgroup weight is dependent on its thread nice
2105 its "/proc/$PID/cgroup" output restricted to cgroupns root. The
2135 When some thread from a multi-threaded process unshares its cgroup
2166 Each process gets its namespace-specific view of "/proc/$PID/cgroup"
2185 different cgroup), the cgroup path relative to its own cgroup
2193 its relative to the cgroup namespace root of the caller.
2212 namespace should only be exposed to its own cgroupns hierarchy.
2216 (a) the process has CAP_SYS_ADMIN against its current user namespace
2234 filesystem root. The process needs CAP_SYS_ADMIN against its user and
2276 wbc_init_bio() binds the specified bio to its cgroup. Depending on
2321 each controller on its own hierarchy. Only closely related ones, such
2378 exposed this way. For a process to access its own knobs, it has to
2384 that the process would actually be operating on its own sub-hierarchy.
2404 interesting problem where threads belonging to a parent cgroup and its
2419 cgroup to host the threads. The hidden leaf had its own copies of all
2480 implementation, despite its enormous size, does not even provide the
2491 reserve. A cgroup enjoys reclaim protection when it's within its
2493 enjoys having reclaim pressure proportional to its overage when
2494 above its effective low.
2537 groups can sabotage swapping by other means - such as referencing its