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diff --git a/ada_user/linker_sets.rst b/ada_user/linker_sets.rst new file mode 100644 index 0000000..d314758 --- /dev/null +++ b/ada_user/linker_sets.rst @@ -0,0 +1,447 @@ +Linker Sets +########### + +.. index:: linkersets + +Introduction +============ + +Linker sets are a flexible means to create arrays of items out of a set of +object files at link-time. For example its possible to define an item *I* +of type *T* in object file *A* and an item *J* of type *T* +in object file *B* to be a member of a linker set *S*. The linker +will then collect these two items *I* and *J* and place them in +consecutive memory locations, so that they can be accessed like a normal array +defined in one object file. The size of a linker set is defined by its begin +and end markers. A linker set may be empty. It should only contain items of +the same type. + +The following macros are provided to create, populate and use linker sets. + +- ``RTEMS_LINKER_SET_BEGIN`` - Designator of the linker set begin marker + +- ``RTEMS_LINKER_SET_END`` - Designator of the linker set end marker + +- ``RTEMS_LINKER_SET_SIZE`` - The linker set size in characters + +- ``RTEMS_LINKER_ROSET_DECLARE`` - Declares a read-only linker set + +- ``RTEMS_LINKER_ROSET`` - Defines a read-only linker set + +- ``RTEMS_LINKER_ROSET_ITEM_DECLARE`` - Declares a read-only linker set item + +- ``RTEMS_LINKER_ROSET_ITEM_REFERENCE`` - References a read-only linker set item + +- ``RTEMS_LINKER_ROSET_ITEM`` - Defines a read-only linker set item + +- ``RTEMS_LINKER_ROSET_ITEM_ORDERED`` - Defines an ordered read-only linker set item + +- ``RTEMS_LINKER_RWSET_DECLARE`` - Declares a read-write linker set + +- ``RTEMS_LINKER_RWSET`` - Defines a read-write linker set + +- ``RTEMS_LINKER_RWSET_ITEM_DECLARE`` - Declares a read-write linker set item + +- ``RTEMS_LINKER_RWSET_ITEM_REFERENCE`` - References a read-write linker set item + +- ``RTEMS_LINKER_RWSET_ITEM`` - Defines a read-write linker set item + +- ``RTEMS_LINKER_RWSET_ITEM_ORDERED`` - Defines an ordered read-write linker set item + +Background +========== + +Linker sets are used not only in RTEMS, but also for example in Linux, in +FreeBSD, for the GNU C constructor extension and for global C++ constructors. +They provide a space efficient and flexible means to initialize modules. A +linker set consists of + +- dedicated input sections for the linker (e.g. ``.ctors`` and``.ctors.*`` in the case of global constructors), + +- a begin marker (e.g. provided by ``crtbegin.o``, and + +- an end marker (e.g. provided by ``ctrend.o``). + +A module may place a certain data item into the dedicated input section. The +linker will collect all such data items in this section and creates a begin and +end marker. The initialization code can then use the begin and end markers to +find all the collected data items (e.g. pointers to initialization functions). + +In the linker command file of the GNU linker we need the following output +section descriptions. +.. code:: c + + /* To be placed in a read-only memory region \*/ + .rtemsroset : { + KEEP (\*(SORT(.rtemsroset.*))) + } + /* To be placed in a read-write memory region \*/ + .rtemsrwset : { + KEEP (\*(SORT(.rtemsrwset.*))) + } + +The ``KEEP()`` ensures that a garbage collection by the linker will not +discard the content of this section. This would normally be the case since the +linker set items are not referenced directly. The ``SORT()`` directive +sorts the input sections lexicographically. Please note the lexicographical +order of the ``.begin``, ``.content`` and ``.end`` section name parts +in the RTEMS linker sets macros which ensures that the position of the begin +and end markers are right. + +So, what is the benefit of using linker sets to initialize modules? It can be +used to initialize and include only those RTEMS managers and other components +which are used by the application. For example, in case an application uses +message queues, it must call ``rtems_message_queue_create()``. In the +module implementing this function, we can place a linker set item and register +the message queue handler constructor. Otherwise, in case the application does +not use message queues, there will be no reference to the``rtems_message_queue_create()`` function and the constructor is not +registered, thus nothing of the message queue handler will be in the final +executable. + +For an example see test program :file:`sptests/splinkersets01`. + +Directives +========== + +RTEMS_LINKER_SET_BEGIN - Designator of the linker set begin marker +------------------------------------------------------------------ + +**CALLING SEQUENCE:** + +.. index:: RTEMS_LINKER_SET_BEGIN + +.. code:: c + + volatile type \*begin = RTEMS_LINKER_SET_BEGIN( set ); + +**DESCRIPTION:** + +This macro generates the designator of the begin marker of the linker set +identified by ``set``. The item at the begin marker address is the first +member of the linker set if it exists, e.g. the linker set is not empty. A +linker set is empty, if and only if the begin and end markers have the same +address. +The ``set`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies the linker set. + +RTEMS_LINKER_SET_END - Designator of the linker set end marker +-------------------------------------------------------------- + +**CALLING SEQUENCE:** + +.. index:: RTEMS_LINKER_SET_END + +.. code:: c + + volatile type \*end = RTEMS_LINKER_SET_END( set ); + +**DESCRIPTION:** + +This macro generates the designator of the end marker of the linker set +identified by ``set``. The item at the end marker address is not a member +of the linker set. The ``set`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies the linker set. + +RTEMS_LINKER_SET_SIZE - The linker set size in characters +--------------------------------------------------------- + +**CALLING SEQUENCE:** + +.. index:: RTEMS_LINKER_SET_SIZE + +.. code:: c + + size_t size = RTEMS_LINKER_SET_SIZE( set ); + +**DESCRIPTION:** + +This macro returns the size of the linker set identified by ``set`` in +characters. The ``set`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies the linker set. + +RTEMS_LINKER_ROSET_DECLARE - Declares a read-only linker set +------------------------------------------------------------ + +**CALLING SEQUENCE:** + +.. index:: RTEMS_LINKER_ROSET_DECLARE + +.. code:: c + + RTEMS_LINKER_ROSET_DECLARE( set, type ); + +**DESCRIPTION:** + +This macro generates declarations for the begin and end markers of a read-only +linker set identified by ``set``. The ``set`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies the linker set. The ``type`` parameter defines the type of the linker set items. The type +must be the same for all macro invocations of a particular linker set. + +RTEMS_LINKER_ROSET - Defines a read-only linker set +--------------------------------------------------- + +**CALLING SEQUENCE:** + +.. index:: RTEMS_LINKER_ROSET + +.. code:: c + + RTEMS_LINKER_ROSET( set, type ); + +**DESCRIPTION:** + +This macro generates definitions for the begin and end markers of a read-only +linker set identified by ``set``. The ``set`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies the linker set. The ``type`` parameter defines the type of the linker set items. The type +must be the same for all macro invocations of a particular linker set. + +RTEMS_LINKER_ROSET_ITEM_DECLARE - Declares a read-only linker set item +---------------------------------------------------------------------- + +**CALLING SEQUENCE:** + +.. index:: RTEMS_LINKER_ROSET_ITEM_DECLARE + +.. code:: c + + RTEMS_LINKER_ROSET_ITEM_DECLARE( set, type, item ); + +**DESCRIPTION:** + +This macro generates a declaration of an item contained in the read-only linker +set identified by ``set``. The ``set`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies the linker set. The ``type`` parameter defines the type of the linker set items. The type +must be the same for all macro invocations of a particular linker set. The ``item`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies an item in the linker set. + +RTEMS_LINKER_ROSET_ITEM_REFERENCE - References a read-only linker set item +-------------------------------------------------------------------------- + +**CALLING SEQUENCE:** + +.. index:: RTEMS_LINKER_ROSET_ITEM_REFERENCE + +.. code:: c + + RTEMS_LINKER_ROSET_ITEM_REFERENCE( set, type, item ); + +**DESCRIPTION:** + +This macro generates a reference to an item contained in the read-only linker set +identified by ``set``. The ``set`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies the linker set. The ``type`` parameter defines the type of the linker set items. The type +must be the same for all macro invocations of a particular linker set. The ``item`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies an item in the linker set. + +RTEMS_LINKER_ROSET_ITEM - Defines a read-only linker set item +------------------------------------------------------------- + +**CALLING SEQUENCE:** + +.. index:: RTEMS_LINKER_ROSET_ITEM + +.. code:: c + + RTEMS_LINKER_ROSET_ITEM( set, type, item ); + +**DESCRIPTION:** + +This macro generates a definition of an item contained in the read-only linker set +identified by ``set``. The ``set`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies the linker set. The ``type`` parameter defines the type of the linker set items. The type +must be the same for all macro invocations of a particular linker set. The ``item`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies an item in the linker set. + +RTEMS_LINKER_ROSET_ITEM_ORDERED - Defines an ordered read-only linker set item +------------------------------------------------------------------------------ + +**CALLING SEQUENCE:** + +.. index:: RTEMS_LINKER_ROSET_ITEM_ORDERED + +.. code:: c + + RTEMS_LINKER_ROSET_ITEM_ORDERED( set, type, item, order ); + +**DESCRIPTION:** + +This macro generates a definition of an ordered item contained in the read-only +linker set identified by ``set``. The ``set`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies the linker set. The ``type`` parameter defines the type of the linker set items. The type +must be the same for all macro invocations of a particular linker set. +The ``item`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies an item in the linker set. The ``order`` parameter must be a valid linker input section name part on +which macro expansion is performed. The items are lexicographically ordered +according to the ``order`` parameter within a linker set. Ordered items are +placed before unordered items in the linker set. + +**NOTES:** + +To be resilient to typos in the order parameter, it is recommended to use the +following construct in macros defining items for a particular linker set (see +enum in ``XYZ_ITEM()``). +.. code:: c + + #include <rtems/linkersets.h> + typedef struct { + int foo; + } xyz_item; + /* The XYZ-order defines \*/ + #define XYZ_ORDER_FIRST 0x00001000 + #define XYZ_ORDER_AND_SO_ON 0x00002000 + /* Defines an ordered XYZ-item \*/ + #define XYZ_ITEM( item, order ) \\ + enum { xyz_##item = order - order }; \\ + RTEMS_LINKER_ROSET_ITEM_ORDERED( \\ + xyz, const xyz_item \*, item, order \\ + ) = { &item } + /* Example item \*/ + static const xyz_item some_item = { 123 }; + XYZ_ITEM( some_item, XYZ_ORDER_FIRST ); + +RTEMS_LINKER_RWSET_DECLARE - Declares a read-write linker set +------------------------------------------------------------- + +**CALLING SEQUENCE:** + +.. index:: RTEMS_LINKER_RWSET_DECLARE + +.. code:: c + + RTEMS_LINKER_RWSET_DECLARE( set, type ); + +**DESCRIPTION:** + +This macro generates declarations for the begin and end markers of a read-write +linker set identified by ``set``. The ``set`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies the linker set. The ``type`` parameter defines the type of the linker set items. The type +must be the same for all macro invocations of a particular linker set. + +RTEMS_LINKER_RWSET - Defines a read-write linker set +---------------------------------------------------- + +**CALLING SEQUENCE:** + +.. index:: RTEMS_LINKER_RWSET + +.. code:: c + + RTEMS_LINKER_RWSET( set, type ); + +**DESCRIPTION:** + +This macro generates definitions for the begin and end markers of a read-write +linker set identified by ``set``. The ``set`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies the linker set. The ``type`` parameter defines the type of the linker set items. The type +must be the same for all macro invocations of a particular linker set. + +RTEMS_LINKER_RWSET_ITEM_DECLARE - Declares a read-write linker set item +----------------------------------------------------------------------- + +**CALLING SEQUENCE:** + +.. index:: RTEMS_LINKER_RWSET_ITEM_DECLARE + +.. code:: c + + RTEMS_LINKER_RWSET_ITEM_DECLARE( set, type, item ); + +**DESCRIPTION:** + +This macro generates a declaration of an item contained in the read-write linker +set identified by ``set``. The ``set`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies the linker set. The ``type`` parameter defines the type of the linker set items. The type +must be the same for all macro invocations of a particular linker set. The ``item`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies an item in the linker set. + +RTEMS_LINKER_RWSET_ITEM_REFERENCE - References a read-write linker set item +--------------------------------------------------------------------------- + +**CALLING SEQUENCE:** + +.. index:: RTEMS_LINKER_RWSET_ITEM_REFERENCE + +.. code:: c + + RTEMS_LINKER_RWSET_ITEM_REFERENCE( set, type, item ); + +**DESCRIPTION:** + +This macro generates a reference to an item contained in the read-write linker set +identified by ``set``. The ``set`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies the linker set. The ``type`` parameter defines the type of the linker set items. The type +must be the same for all macro invocations of a particular linker set. The ``item`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies an item in the linker set. + +RTEMS_LINKER_RWSET_ITEM - Defines a read-write linker set item +-------------------------------------------------------------- + +**CALLING SEQUENCE:** + +.. index:: RTEMS_LINKER_RWSET_ITEM + +.. code:: c + + RTEMS_LINKER_RWSET_ITEM( set, type, item ); + +**DESCRIPTION:** + +This macro generates a definition of an item contained in the read-write linker set +identified by ``set``. The ``set`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies the linker set. The ``type`` parameter defines the type of the linker set items. The type +must be the same for all macro invocations of a particular linker set. The ``item`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies an item in the linker set. + +RTEMS_LINKER_RWSET_ITEM_ORDERED - Defines an ordered read-write linker set item +------------------------------------------------------------------------------- + +**CALLING SEQUENCE:** + +.. index:: RTEMS_LINKER_RWSET_ITEM_ORDERED + +.. code:: c + + RTEMS_LINKER_RWSET_ITEM_ORDERED( set, type, item, order ); + +**DESCRIPTION:** + +This macro generates a definition of an ordered item contained in the read-write +linker set identified by ``set``. The ``set`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies the linker set. The ``type`` parameter defines the type of the linker set items. The type +must be the same for all macro invocations of a particular linker set. +The ``item`` parameter itself must be a valid C designator on which no macro +expansion is performed. It uniquely identifies an item in the linker set. The ``order`` parameter must be a valid linker input section name part on +which macro expansion is performed. The items are lexicographically ordered +according to the ``order`` parameter within a linker set. Ordered items are +placed before unordered items in the linker set. + +**NOTES:** + +To be resilient to typos in the order parameter, it is recommended to use the +following construct in macros defining items for a particular linker set (see +enum in ``XYZ_ITEM()``). +.. code:: c + + #include <rtems/linkersets.h> + typedef struct { + int foo; + } xyz_item; + /* The XYZ-order defines \*/ + #define XYZ_ORDER_FIRST 0x00001000 + #define XYZ_ORDER_AND_SO_ON 0x00002000 + /* Defines an ordered XYZ-item \*/ + #define XYZ_ITEM( item, order ) \\ + enum { xyz_##item = order - order }; \\ + RTEMS_LINKER_RWSET_ITEM_ORDERED( \\ + xyz, const xyz_item \*, item, order \\ + ) = { &item } + /* Example item \*/ + static const xyz_item some_item = { 123 }; + XYZ_ITEM( some_item, XYZ_ORDER_FIRST ); + +.. COMMENT: COPYRIGHT (c) 1989-2014. + +.. COMMENT: On-Line Applications Research Corporation (OAR). + +.. COMMENT: All rights reserved. + |