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diff --git a/c-user/config/index.rst b/c-user/config/index.rst index 1afc3ed..f8cbf78 100644 --- a/c-user/config/index.rst +++ b/c-user/config/index.rst @@ -23,222 +23,7 @@ Configuring a System bsp-related idle-task scheduler-general - -.. _ConfigurationSchedulersClustered: - -Clustered Scheduler Configuration -================================= - -A clustered scheduler configuration is optional. It is an advanced -configuration area and only necessary in specific circumstances. - -Clustered scheduling helps to control the worst-case latencies in a -multiprocessor system (SMP). The goal is to reduce the amount of shared state -in the system and thus prevention of lock contention. Modern multiprocessor -systems tend to have several layers of data and instruction caches. With -clustered scheduling it is possible to honour the cache topology of a system -and thus avoid expensive cache synchronization traffic. - -We have clustered scheduling in case the set of processors of a system is -partitioned into non-empty pairwise-disjoint subsets. These subsets are called -clusters. Clusters with a cardinality of one are partitions. Each cluster is -owned by exactly one scheduler. - -In order to use clustered scheduling the application designer has to answer two -questions. - -#. How is the set of processors partitioned into clusters? - -#. Which scheduler algorithm is used for which cluster? - -The schedulers are statically configured. - -Configuration Step 1 - Scheduler Algorithms -------------------------------------------- - -Firstly, the application must select which scheduling algorithms are available -with the following defines - -- :ref:`CONFIGURE_SCHEDULER_EDF_SMP <CONFIGURE_SCHEDULER_EDF_SMP>`, - -- :ref:`CONFIGURE_SCHEDULER_PRIORITY_AFFINITY_SMP <CONFIGURE_SCHEDULER_PRIORITY_AFFINITY_SMP>`, - -- :ref:`CONFIGURE_SCHEDULER_PRIORITY_SMP <CONFIGURE_SCHEDULER_PRIORITY_SMP>`, and - -- :ref:`CONFIGURE_SCHEDULER_SIMPLE_SMP <CONFIGURE_SCHEDULER_SIMPLE_SMP>`. - -This is necessary to calculate the per-thread overhead introduced by the -scheduler algorithms. After these definitions the configuration file must -``#include <rtems/scheduler.h>`` to have access to scheduler-specific -configuration macros. - -It is possible to make more than one scheduler algorithm available to the -application. For example a :ref:`Simple Priority SMP Scheduler -<SchedulerSMPPrioritySimple>` could be used in a partition for low latency -tasks in addition to an :ref:`EDF SMP Scheduler <SchedulerSMPEDF>` for a -general-purpose cluster. Since the per-thread overhead depends on the -scheduler algorithm only the scheduler algorithms used by the application -should be configured. - -Configuration Step 2 - Schedulers ---------------------------------- - -Each scheduler needs some data structures. Use the following macros to create -the scheduler data structures for a particular scheduler identified in the -configuration by ``name``. - -- ``RTEMS_SCHEDULER_EDF_SMP(name, max_cpu_count)``, - -- ``RTEMS_SCHEDULER_PRIORITY_AFFINITY_SMP(name, prio_count)``, - -- ``RTEMS_SCHEDULER_PRIORITY_SMP(name, prio_count)``, and - -- ``RTEMS_SCHEDULER_SIMPLE_SMP(name)``. - -The ``name`` parameter is used as part of a designator for scheduler-specific -data structures, so the usual C/C++ designator rules apply. This ``name`` is -not the scheduler object name. Additional parameters are scheduler-specific. - -.. _ConfigurationSchedulerTable: - -Configuration Step 3 - Scheduler Table --------------------------------------- - -The schedulers are registered in the system via the scheduler table. To -populate the scheduler table define ``CONFIGURE_SCHEDULER_TABLE_ENTRIES`` to a -list of the following scheduler table entry initializers - -- ``RTEMS_SCHEDULER_TABLE_EDF_SMP(name, obj_name)``, - -- ``RTEMS_SCHEDULER_TABLE_PRIORITY_AFFINITY_SMP(name, obj_name)``, - -- ``RTEMS_SCHEDULER_TABLE_PRIORITY_SMP(name, obj_name)``, and - -- ``RTEMS_SCHEDULER_TABLE_SIMPLE_SMP(name, obj_name)``. - -The ``name`` parameter must correspond to the parameter defining the scheduler -data structures of configuration step 2. The ``obj_name`` determines the -scheduler object name and can be used in :ref:`rtems_scheduler_ident() -<rtems_scheduler_ident>` to get the scheduler object identifier. The scheduler -index is defined by the index of the scheduler table. It is a configuration -error to add a scheduler multiple times to the scheduler table. - -Configuration Step 4 - Processor to Scheduler Assignment --------------------------------------------------------- - -The last step is to define which processor uses which scheduler. For this -purpose a scheduler assignment table must be defined. The entry count of this -table must be equal to the configured maximum processors -(:ref:`CONFIGURE_MAXIMUM_PROCESSORS <CONFIGURE_MAXIMUM_PROCESSORS>`). A -processor assignment to a scheduler can be optional or mandatory. The boot -processor must have a scheduler assigned. In case the system needs more -mandatory processors than available then a fatal run-time error will occur. To -specify the scheduler assignments define -``CONFIGURE_SCHEDULER_ASSIGNMENTS`` to a list of - -- ``RTEMS_SCHEDULER_ASSIGN(scheduler_index, attr)`` and - -- ``RTEMS_SCHEDULER_ASSIGN_NO_SCHEDULER`` - -macros. The ``scheduler_index`` parameter must be a valid index into the -scheduler table defined by configuration step 3. The ``attr`` parameter -defines the scheduler assignment attributes. By default, a scheduler -assignment to a processor is optional. For the scheduler assignment attribute -use one of the mutually exclusive variants - -- ``RTEMS_SCHEDULER_ASSIGN_DEFAULT``, - -- ``RTEMS_SCHEDULER_ASSIGN_PROCESSOR_MANDATORY``, and - -- ``RTEMS_SCHEDULER_ASSIGN_PROCESSOR_OPTIONAL``. - -It is possible to add/remove processors to/from schedulers at run-time, see -:ref:`rtems_scheduler_add_processor() <rtems_scheduler_add_processor>` and -:ref:`rtems_scheduler_remove_processor() <rtems_scheduler_remove_processor>`. - -Configuration Example ---------------------- - -The following example shows a scheduler configuration for a hypothetical -product using two chip variants. One variant has four processors which is used -for the normal product line and another provides eight processors for the -high-performance product line. The first processor performs hard-real time -control of actuators and sensors. The second processor is not used by RTEMS at -all and runs a Linux instance to provide a graphical user interface. The -additional processors are used for a worker thread pool to perform data -processing operations. - -The processors managed by RTEMS use two Deterministic Priority SMP schedulers -capable of dealing with 256 priority levels. The scheduler with index zero has -the name ``"IO "``. The scheduler with index one has the name ``"WORK"``. The -scheduler assignments of the first, third and fourth processor are mandatory, -so the system must have at least four processors, otherwise a fatal run-time -error will occur during system startup. The processor assignments for the -fifth up to the eighth processor are optional so that the same application can -be used for the normal and high-performance product lines. The second -processor has no scheduler assigned and runs Linux. A hypervisor will ensure -that the two systems cannot interfere in an undesirable way. - -.. code-block:: c - - #define CONFIGURE_MAXIMUM_PROCESSORS 8 - #define CONFIGURE_MAXIMUM_PRIORITY 255 - - /* Configuration Step 1 - Scheduler Algorithms */ - #define CONFIGURE_SCHEDULER_PRIORITY_SMP - #include <rtems/scheduler.h> - - /* Configuration Step 2 - Schedulers */ - RTEMS_SCHEDULER_PRIORITY_SMP(io, CONFIGURE_MAXIMUM_PRIORITY + 1); - RTEMS_SCHEDULER_PRIORITY_SMP(work, CONFIGURE_MAXIMUM_PRIORITY + 1); - - /* Configuration Step 3 - Scheduler Table */ - #define CONFIGURE_SCHEDULER_TABLE_ENTRIES \ - RTEMS_SCHEDULER_TABLE_PRIORITY_SMP( \ - io, \ - rtems_build_name('I', 'O', ' ', ' ') \ - ), \ - RTEMS_SCHEDULER_TABLE_PRIORITY_SMP( \ - work, \ - rtems_build_name('W', 'O', 'R', 'K') \ - ) - - /* Configuration Step 4 - Processor to Scheduler Assignment */ - #define CONFIGURE_SCHEDULER_ASSIGNMENTS \ - RTEMS_SCHEDULER_ASSIGN(0, RTEMS_SCHEDULER_ASSIGN_PROCESSOR_MANDATORY), \ - RTEMS_SCHEDULER_ASSIGN_NO_SCHEDULER, \ - RTEMS_SCHEDULER_ASSIGN(1, RTEMS_SCHEDULER_ASSIGN_PROCESSOR_MANDATORY), \ - RTEMS_SCHEDULER_ASSIGN(1, RTEMS_SCHEDULER_ASSIGN_PROCESSOR_MANDATORY), \ - RTEMS_SCHEDULER_ASSIGN(1, RTEMS_SCHEDULER_ASSIGN_PROCESSOR_OPTIONAL), \ - RTEMS_SCHEDULER_ASSIGN(1, RTEMS_SCHEDULER_ASSIGN_PROCESSOR_OPTIONAL), \ - RTEMS_SCHEDULER_ASSIGN(1, RTEMS_SCHEDULER_ASSIGN_PROCESSOR_OPTIONAL), \ - RTEMS_SCHEDULER_ASSIGN(1, RTEMS_SCHEDULER_ASSIGN_PROCESSOR_OPTIONAL) - -Configuration Errors --------------------- - -In case one of the scheduler indices in ``CONFIGURE_SCHEDULER_ASSIGNMENTS`` -is invalid a link-time error will occur with an undefined reference to -``RTEMS_SCHEDULER_INVALID_INDEX``. - -Some fatal errors may occur in case of scheduler configuration inconsistencies -or a lack of processors on the system. The fatal source is -``RTEMS_FATAL_SOURCE_SMP``. - -- ``SMP_FATAL_BOOT_PROCESSOR_NOT_ASSIGNED_TO_SCHEDULER`` - the boot processor - must have a scheduler assigned. - -- ``SMP_FATAL_MANDATORY_PROCESSOR_NOT_PRESENT`` - there exists a mandatory - processor beyond the range of physically or virtually available processors. - The processor demand must be reduced for this system. - -- ``SMP_FATAL_START_OF_MANDATORY_PROCESSOR_FAILED`` - the start of a mandatory - processor failed during system initialization. The system may not have this - processor at all or it could be a problem with a boot loader for example. - Check the ``CONFIGURE_SCHEDULER_ASSIGNMENTS`` definition. - -- ``SMP_FATAL_MULTITASKING_START_ON_UNASSIGNED_PROCESSOR`` - it is not allowed - to start multitasking on a processor with no scheduler assigned. + scheduler-clustered Device Driver Configuration =========================== |