doc/kernel/memory_management/shared_multi_heap.rst - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 .. _memory_management_shared_multi_heap:

 Shared Multi Heap
 #################

 The shared multi-heap memory pool manager uses the multi-heap allocator to
 manage a set of reserved memory regions with different capabilities /
 attributes (cacheable, non-cacheable, etc...).

 All the different regions can be added at run-time to the shared multi-heap
 pool providing an opaque "attribute" value (an integer or enum value) that can
 be used by drivers or applications to request memory with certain capabilities.

 This framework is commonly used as follow:

 1. At boot time some platform code initialize the shared multi-heap framework
    using :c:func:`shared_multi_heap_pool_init()` and add the memory regions to
    the pool with :c:func:`shared_multi_heap_add()`, possibly gathering the
    needed information for the regions from the DT.

 2. Each memory region encoded in a :c:type:`shared_multi_heap_region`
    structure.  This structure is also carrying an opaque and user-defined
    integer value that is used to define the region capabilities (for example:
    cacheability, cpu affinity, etc...)

 .. code-block:: c

    // Init the shared multi-heap pool
    shared_multi_heap_pool_init()

    // Fill the struct with the data for cacheable memory
    struct shared_multi_heap_region cacheable_r0 = {
         .addr = addr_r0,
         .size = size_r0,
         .attr = SMH_REG_ATTR_CACHEABLE,
    };

    // Add the region to the pool
    shared_multi_heap_add(&cacheable_r0, NULL);

    // Add another cacheable region
    struct shared_multi_heap_region cacheable_r1 = {
         .addr = addr_r1,
         .size = size_r1,
         .attr = SMH_REG_ATTR_CACHEABLE,
    };

    shared_multi_heap_add(&cacheable_r0, NULL);

    // Add a non-cacheable region
    struct shared_multi_heap_region non_cacheable_r2 = {
         .addr = addr_r2,
         .size = size_r2,
         .attr = SMH_REG_ATTR_NON_CACHEABLE,
    };

    shared_multi_heap_add(&non_cacheable_r2, NULL);

 3. When a driver or application needs some dynamic memory with a certain
    capability, it can use :c:func:`shared_multi_heap_alloc()` (or the aligned
    version) to request the memory by using the opaque parameter to select the
    correct set of attributes for the needed memory. The framework will take
    care of selecting the correct heap (thus memory region) to carve memory
    from, based on the opaque parameter and the runtime state of the heaps
    (available memory, heap state, etc...)

 .. code-block:: c

    // Allocate 4K from cacheable memory
    shared_multi_heap_alloc(SMH_REG_ATTR_CACHEABLE, 0x1000);

    // Allocate 4K from non-cacheable memory
    shared_multi_heap_alloc(SMH_REG_ATTR_NON_CACHEABLE, 0x1000);

 Adding new attributes
 *********************

 The API does not enforce any attributes, but at least it defines the two most
 common ones: :c:enum:`SMH_REG_ATTR_CACHEABLE` and :c:enum:`SMH_REG_ATTR_NON_CACHEABLE`

 .. doxygengroup:: shared_multi_heap
    :project: Zephyr
	.. _memory_management_shared_multi_heap:

	Shared Multi Heap
	#################

	The shared multi-heap memory pool manager uses the multi-heap allocator to
	manage a set of reserved memory regions with different capabilities /
	attributes (cacheable, non-cacheable, etc...).

	All the different regions can be added at run-time to the shared multi-heap
	pool providing an opaque "attribute" value (an integer or enum value) that can
	be used by drivers or applications to request memory with certain capabilities.

	This framework is commonly used as follow:

	1. At boot time some platform code initialize the shared multi-heap framework
	using :c:func:`shared_multi_heap_pool_init()` and add the memory regions to
	the pool with :c:func:`shared_multi_heap_add()`, possibly gathering the
	needed information for the regions from the DT.

	2. Each memory region encoded in a :c:type:`shared_multi_heap_region`
	structure. This structure is also carrying an opaque and user-defined
	integer value that is used to define the region capabilities (for example:
	cacheability, cpu affinity, etc...)

	.. code-block:: c

	// Init the shared multi-heap pool
	shared_multi_heap_pool_init()

	// Fill the struct with the data for cacheable memory
	struct shared_multi_heap_region cacheable_r0 = {
	.addr = addr_r0,
	.size = size_r0,
	.attr = SMH_REG_ATTR_CACHEABLE,
	};

	// Add the region to the pool
	shared_multi_heap_add(&cacheable_r0, NULL);

	// Add another cacheable region
	struct shared_multi_heap_region cacheable_r1 = {
	.addr = addr_r1,
	.size = size_r1,
	.attr = SMH_REG_ATTR_CACHEABLE,
	};

	shared_multi_heap_add(&cacheable_r0, NULL);

	// Add a non-cacheable region
	struct shared_multi_heap_region non_cacheable_r2 = {
	.addr = addr_r2,
	.size = size_r2,
	.attr = SMH_REG_ATTR_NON_CACHEABLE,
	};

	shared_multi_heap_add(&non_cacheable_r2, NULL);

	3. When a driver or application needs some dynamic memory with a certain
	capability, it can use :c:func:`shared_multi_heap_alloc()` (or the aligned
	version) to request the memory by using the opaque parameter to select the
	correct set of attributes for the needed memory. The framework will take
	care of selecting the correct heap (thus memory region) to carve memory
	from, based on the opaque parameter and the runtime state of the heaps
	(available memory, heap state, etc...)

	.. code-block:: c

	// Allocate 4K from cacheable memory
	shared_multi_heap_alloc(SMH_REG_ATTR_CACHEABLE, 0x1000);

	// Allocate 4K from non-cacheable memory
	shared_multi_heap_alloc(SMH_REG_ATTR_NON_CACHEABLE, 0x1000);

	Adding new attributes
	*********************

	The API does not enforce any attributes, but at least it defines the two most
	common ones: :c:enum:`SMH_REG_ATTR_CACHEABLE` and :c:enum:`SMH_REG_ATTR_NON_CACHEABLE`

	.. doxygengroup:: shared_multi_heap
	:project: Zephyr