.. _microkernel_memory_maps: Memory Maps ########### Concepts ******** The microkernel's memory map objects provide dynamic allocation and release of fixed-size memory blocks. Any number of memory maps can be defined in a microkernel system. Each memory map has: * A **name** that uniquely identifies it. * The **number of blocks** it contains. * **Block size** of a single block, measured in bytes. The number of blocks and block size values cannot be zero. On most processors, the block size must be defined as a multiple of the word size. A task that needs to use a memory block simply allocates it from a memory map. When all the blocks are currently in use, the task can wait for one to become available. When the task finishes with a memory block, it must release the block back to the memory map that allocated it so that the block can be reused. Any number of tasks can wait on an empty memory map simultaneously; when a memory block becomes available, it is given to the highest-priority task that has waited the longest. The microkernel manages memory blocks in an efficient and deterministic manner that eliminates the risk of memory fragmentation problems which can arise when using variable-size blocks. Unlike a heap, more than one memory map can be defined, if needed. This allows for a memory map with smaller blocks and others with larger-sized blocks. Alternatively, a memory pool object may be used. Purpose ******* Use a memory map to allocate and free memory in fixed-size blocks. Usage ***** Defining a Memory Map ===================== The following parameters must be defined: *name* This specifies a unique name for the memory map. *num_blocks* This specifies the number of memory blocks in the memory map. *block_size* This specifies the size in bytes of each memory block. Public Memory Map ----------------- Define the memory map in the application's MDEF using the following syntax: .. code-block:: console MAP name num_blocks block_size For example, the file :file:`projName.mdef` defines a pair of memory maps as follows: .. code-block:: console % MAP NAME NUMBLOCKS BLOCKSIZE % ====================================== MAP MYMAP 4 1024 MAP YOURMAP 6 200 A public memory map can be referenced by name from any source file that includes the file :file:`zephyr.h`. Private Memory Map ------------------ Define the memory map in a source file using the following syntax: .. code-block:: c DEFINE_MEMORY_MAP(name, num_blocks, block_size); Example: Defining a Memory Map, Referencing it from Elsewhere in the Application ================================================================================ This code defines a private memory map named ``PRIV_MEM_MAP``: .. code-block:: c DEFINE_MEMORY_MAP(PRIV_MEM_MAP, 6, 200); To reference the map from a different source file, use the following syntax: .. code-block:: c extern const kmemory_map_t PRIV_MEM_MAP; Example: Requesting a Memory Block from a Map with No Conditions ================================================================ This code waits indefinitely for a memory block to become available when all the memory blocks are in use. .. code-block:: c char *block_ptr; task_mem_map_alloc(MYMAP, &block_ptr, TICKS_UNLIMITED); Example: Requesting a Memory Block from a Map with a Conditional Time-out ========================================================================= This code waits a specified amount of time for a memory block to become available and gives a warning when the memory block does not become available in the specified time. .. code-block:: c char *block_ptr; if (task_mem_map_alloc(MYMAP, &block_ptr, 5) == RC_OK)) { /* utilize memory block */ } else { printf("Memory allocation time-out"); } Example: Requesting a Memory Block from a Map with a No Blocking Condition ========================================================================== This code gives an immediate warning when all memory blocks are in use. .. code-block:: c char *block_ptr; if (task_mem_map_alloc(MYMAP, &block_ptr, TICKS_NONE) == RC_OK) { /* utilize memory block */ } else { display_warning(); /* and do not allocate memory block*/ } Example: Freeing a Memory Block back to a Map ============================================= This code releases a memory block back when it is no longer needed. .. code-block:: c char *block_ptr; task_mem_map_alloc(MYMAP, &block_ptr, TICKS_UNLIMITED); /* use memory block */ task_mem_map_free(&block_ptr); APIs **** The following Memory Map APIs are provided by :file:`microkernel.h`: :cpp:func:`task_mem_map_alloc()` Wait on a block of memory for the period of time defined by the time-out parameter. :c:func:`task_mem_map_free()` Return a block to a memory map. :cpp:func:`task_mem_map_used_get()` Return the number of used blocks in a memory map.