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menu "LITMUS^RT"

menu "Scheduling"

config PLUGIN_CEDF
        bool "Clustered-EDF"
	depends on X86 && SYSFS
        default y
        help
          Include the Clustered EDF (C-EDF) plugin in the kernel.
          This is appropriate for large platforms with shared caches.
          On smaller platforms (e.g., ARM PB11MPCore), using C-EDF
          makes little sense since there aren't any shared caches.

config PLUGIN_PFAIR
	bool "PFAIR"
	depends on HIGH_RES_TIMERS && !NO_HZ
	default y
	help
	  Include the PFAIR plugin (i.e., the PD^2 scheduler) in the kernel.
	  The PFAIR plugin requires high resolution timers (for staggered quanta)
	  and does not support NO_HZ (quanta could be missed when the system is idle).

	  If unsure, say Yes.

config RELEASE_MASTER
        bool "Release-master Support"
	depends on ARCH_HAS_SEND_PULL_TIMERS
	default n
	help
           Allow one processor to act as a dedicated interrupt processor
           that services all timer interrupts, but that does not schedule
           real-time tasks. See RTSS'09 paper for details
	   (http://www.cs.unc.edu/~anderson/papers.html).
           Currently only supported by GSN-EDF.

endmenu

menu "Real-Time Synchronization"

config NP_SECTION
        bool "Non-preemptive section support"
	default n
	help
	  Allow tasks to become non-preemptable.
          Note that plugins still need to explicitly support non-preemptivity.
          Currently, only GSN-EDF and PSN-EDF have such support.

	  This is required to support locking protocols such as the FMLP.
	  If disabled, all tasks will be considered preemptable at all times.

config LITMUS_LOCKING
        bool "Support for real-time locking protocols"
	depends on NP_SECTION
	default n
	help
	  Enable LITMUS^RT's deterministic multiprocessor real-time
	  locking protocols.

	  Say Yes if you want to include locking protocols such as the FMLP and
	  Baker's SRP.

endmenu

menu "Performance Enhancements"

config SCHED_CPU_AFFINITY
	bool "Local Migration Affinity"
	depends on X86
	default y
	help
	  Rescheduled tasks prefer CPUs near to their previously used CPU.  This
	  may improve performance through possible preservation of cache affinity.

	  Warning: May make bugs harder to find since tasks may migrate less often.

	  NOTES:
	  	* Feature is not utilized by PFair/PD^2.

	  Say Yes if unsure.

config ALLOW_EARLY_RELEASE
	bool "Allow Early Releasing"
	default y
	help
	  Allow tasks to release jobs early (while still maintaining job
	  precedence constraints). Only supported by EDF schedulers. Early
	  releasing must be explicitly requested by real-time tasks via
	  the task_params passed to sys_set_task_rt_param().

	  Early releasing can improve job response times while maintaining
	  real-time correctness. However, it can easily peg your CPUs
	  since tasks never suspend to wait for their next job. As such, early
	  releasing is really only useful in the context of implementing
	  bandwidth servers, interrupt handling threads, or short-lived
	  computations.

	  Beware that early releasing may affect real-time analysis
	  if using locking protocols or I/O.

	  Say Yes if unsure.

choice
	prompt "EDF Tie-Break Behavior"
	default EDF_TIE_BREAK_LATENESS_NORM
	help
	  Allows the configuration of tie-breaking behavior when the deadlines
	  of two EDF-scheduled tasks are equal.
	
	config EDF_TIE_BREAK_LATENESS
	bool "Lateness-based Tie Break"
	help
	  Break ties between two jobs, A and B, based upon the lateness of their
	  prior jobs. The job with the greatest lateness has priority. Note that
	  lateness has a negative value if the prior job finished before its
	  deadline.
	
	config EDF_TIE_BREAK_LATENESS_NORM
	bool "Normalized Lateness-based Tie Break"
	help
	  Break ties between two jobs, A and B, based upon the lateness, normalized
	  by relative deadline, of their prior jobs. The job with the greatest
	  normalized lateness has priority. Note that lateness has a negative value
	  if the prior job finished before its deadline.
	  
	  Normalized lateness tie-breaks are likely desireable over non-normalized
	  tie-breaks if the execution times and/or relative deadlines of tasks in a
	  task set vary greatly.
	
	config EDF_TIE_BREAK_HASH
	bool "Hash-based Tie Breaks"
	help
	  Break ties between two jobs, A and B, with equal deadlines by using a
	  uniform hash; i.e.: hash(A.pid, A.job_num) < hash(B.pid, B.job_num). Job
	  A has ~50% of winning a given tie-break.
	
	config EDF_PID_TIE_BREAK
	bool "PID-based Tie Breaks"
	help
	  Break ties based upon OS-assigned thread IDs. Use this option if
	  required by algorithm's real-time analysis or per-task response-time
	  jitter must be minimized.
	
	  NOTES:
	    * This tie-breaking method was default in Litmus 2012.2 and before.
		
endchoice

endmenu

menu "Tracing"

config FEATHER_TRACE
	bool "Feather-Trace Infrastructure"
	default y
	help
	  Feather-Trace basic tracing infrastructure. Includes device file
	  driver and instrumentation point support.

	  There are actually two implementations of Feather-Trace.
	  1) A slower, but portable, default implementation.
	  2) Architecture-specific implementations that rewrite kernel .text at runtime.

	  If enabled, Feather-Trace will be based on 2) if available (currently only for x86).
	  However, if DEBUG_RODATA=y, then Feather-Trace will choose option 1) in any case
	  to avoid problems with write-protected .text pages.

	  Bottom line: to avoid increased overheads, choose DEBUG_RODATA=n.

	  Note that this option only enables the basic Feather-Trace infrastructure;
	  you still need to enable SCHED_TASK_TRACE and/or SCHED_OVERHEAD_TRACE to
	  actually enable any events.

config SCHED_TASK_TRACE
	bool "Trace real-time tasks"
	depends on FEATHER_TRACE
	default y
	help
	  Include support for the sched_trace_XXX() tracing functions. This
          allows the collection of real-time task events such as job
	  completions, job releases, early completions, etc. This results in  a
	  small overhead in the scheduling code. Disable if the overhead is not
	  acceptable (e.g., benchmarking).

	  Say Yes for debugging.
	  Say No for overhead tracing.

config SCHED_TASK_TRACE_SHIFT
       int "Buffer size for sched_trace_xxx() events"
       depends on SCHED_TASK_TRACE
       range 8 13
       default 9
       help

         Select the buffer size of sched_trace_xxx() events as a power of two.
	 These buffers are statically allocated as per-CPU data. Each event
	 requires 24 bytes storage plus one additional flag byte. Too large
	 buffers can cause issues with the per-cpu allocator (and waste
	 memory). Too small buffers can cause scheduling events to be lost. The
	 "right" size is workload dependent and depends on the number of tasks,
	 each task's period, each task's number of suspensions, and how often
	 the buffer is flushed.

	 Examples: 12 =>   4k events
		   10 =>   1k events
		    8 =>  512 events

config SCHED_LITMUS_TRACEPOINT
	bool "Enable Event/Tracepoint Tracing for real-time task tracing"
	depends on TRACEPOINTS
	default n
	help
	  Enable kernel-style events (tracepoint) for Litmus. Litmus events
	  trace the same functions as the above sched_trace_XXX(), but can
	  be enabled independently.
	  Litmus tracepoints can be recorded and analyzed together (single
	  time reference) with all other kernel tracing events (e.g.,
	  sched:sched_switch, etc.).

	  This also enables a quick way to visualize schedule traces using
	  trace-cmd utility and kernelshark visualizer.

	  Say Yes for debugging and visualization purposes.
	  Say No for overhead tracing.

config SCHED_OVERHEAD_TRACE
	bool "Record timestamps for overhead measurements"
	depends on FEATHER_TRACE
	default n
	help
	  Export event stream for overhead tracing.
	  Say Yes for overhead tracing.

config SCHED_DEBUG_TRACE
	bool "TRACE() debugging"
	default y
	help
	  Include support for sched_trace_log_messageg(), which is used to
	  implement TRACE(). If disabled, no TRACE() messages will be included
	  in the kernel, and no overheads due to debugging statements will be
	  incurred by the scheduler. Disable if the overhead is not acceptable
	  (e.g. benchmarking).

	  Say Yes for debugging.
	  Say No for overhead tracing.

config SCHED_DEBUG_TRACE_SHIFT
       int "Buffer size for TRACE() buffer"
       depends on SCHED_DEBUG_TRACE
       range 14 22
       default 18
       help

	Select the amount of memory needed per for the TRACE() buffer, as a
	power of two. The TRACE() buffer is global and statically allocated. If
	the buffer is too small, there will be holes in the TRACE() log if the
	buffer-flushing task is starved.

	The default should be sufficient for most systems. Increase the buffer
	size if the log contains holes. Reduce the buffer size when running on
	a memory-constrained system.

	Examples: 14 =>  16KB
		  18 => 256KB
		  20 =>   1MB

        This buffer is exported to usespace using a misc device as
        'litmus/log'. On a system with default udev rules, a corresponding
        character device node should be created at /dev/litmus/log. The buffer
        can be flushed using cat, e.g., 'cat /dev/litmus/log > my_log_file.txt'.

config SCHED_DEBUG_TRACE_CALLER
       bool "Include [function@file:line] tag in TRACE() log"
       depends on SCHED_DEBUG_TRACE
       default n
       help
         With this option enabled, TRACE() prepends

	      "[<function name>@<filename>:<line number>]"

	 to each message in the debug log. Enable this to aid in figuring out
         what was called in which order. The downside is that it adds a lot of
         clutter.

	 If unsure, say No.

config PREEMPT_STATE_TRACE
       bool "Trace preemption state machine transitions"
       depends on SCHED_DEBUG_TRACE && DEBUG_KERNEL
       default n
       help
         With this option enabled, each CPU will log when it transitions
	 states in the preemption state machine. This state machine is
	 used to determine how to react to IPIs (avoid races with in-flight IPIs).

	 Warning: this creates a lot of information in the debug trace. Only
	 recommended when you are debugging preemption-related races.

	 If unsure, say No.

endmenu

endmenu