Firstly the virtual runtime of a task
- in theory is the when the task would start its next time slice of
execution on a theoretically perfect multiple threaded CPU.
- in practice is its actual runtime normalized to the total number of running tasks
1. How does the scheduler schedule all of the tasks within the
It maintains a time ordered red and black tree, where all the runnable tasks are
sorted by their virtual runtime. Nodes on the left have run for the shortest amount of time.
CFS picks the left most task and runs it, until the task schedules or the scheduler ticks
then the CPU time it spent running is added to its virtual runtime.
When it is no longer the left most node, then new task with the shortest virtual is run and
the old task prempted.
2. When a process wakes up what actually is done in the place_entity function?
When a process wakes up the place_entity function either leaves the
task's virtual runtime as it was or increases it.
When a process wakes up the place_entity function does the following things
Initialise the temporary virtual runtime to the the CFS run queue's virtual runtime of the smallest task.
As sleeps less than a single latency don't count,
initializses a threshold variable to sysctl_sched_latency.
If the GENTLE_FAIR_SLEEPERS feature is enabled,
then half the value of the this variable.
Decrement the previously initialised temporary virtual runtime by this threshold value.
Ensure that the temporary virtual runtime is at least equal to the task's virtual runtime, by setting the calculated virtual runtime to the maximum of itself and the task's virtual runtime.
Set the task's virtual runtime to the temporary runtime.
3. When a process wakes up why is the vruntime adjusted by subtracting from sched_latency?
The virtual runtime is decremented because sleeps less than a single latency don't count.
E.g the task shouldn't have its position changed in the red black tree changed if it has
only slept for a single scheduler latency.
4. Can't that lead to processes in the run queue with large differences in the vruntime value?
I believe that the logic described in Step 3 for Question 2, prevents or at least minimises that.
sched.c Linux Kernel Source
sched_fair.c Linux Kernel Source
Notes on the CFS Scheduler Design