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The following is the code for the entity class for RT policy in linux scheduling.

struct sched_rt_entity {
     struct list_head run_list;
     unsigned long timeout;
     unsigned int time_slice;

     struct sched_rt_entity *back;
     struct sched_rt_entity  *parent;
     /* rq on which this entity is (to be) queued: */
     struct rt_rq            *rt_rq;
     /* rq "owned" by this entity/group: */
     struct rt_rq            *my_q;

What is data member back required when the list is already implemented.

I also do not understand how the group scheduling policy is implemented, particularly why there is a need of my_rq and rt_rq and who will parent point to.

Also what is the meaning of timeout data member.

P.S.: I have lots and lots of such question, Can anyone suggest a good read.

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1 Answer 1

up vote 1 down vote accepted

When using group scheduling, there is not a single queue, but a tree of groups and their queues. For example, when two users have a scheduling group each, the overall group/queue might allocate 50 % CPU to each user's group, while all the users' programs are in their group's queue and compete for that 50 %. For a more detailed explanation of how the multiple queues work, see CFS group scheduling.

parent points to the entity one level up in the tree; rt_rq is the queue on which this entity runs, while my_q is the queue on which this entity's children run.

The back field is used as temporary storage in the dequeue_rt_stack() function to implement a stack, where we have a pointer to the lowest entity, but want to remove them beginning from the top-level one.

timeout is increased by the watchdog timer and used to check that the task does not hog the CPU for longer than RLIMIT_RTTIME.

There are no books about recent kernel changes. Use the source, Luke.

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I understand this but it would be great if you can offer some more insight on why such a structure is used as thee explanation has given rise to a few more questions. More specifically, why there is a need of the queue in which the children are running. –  Aman Deep Gautam Oct 19 '12 at 2:58
Also another question because you have brought up dequeue_rt_stack, I do not understand that what if the pointer is not to the lowest entity, when the temporary assignment using back is going to take place we assign rt_se->back=back which means we are assigning it null without talking care about if that was in the middle of any list, in other words what if some other entities are pointing to it(as they were a part of same group) and now only this entity and their parents would remain together. –  Aman Deep Gautam Oct 19 '12 at 3:21

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