.. SPDX-FileCopyrightText: 2019-2021 Intel Corporation .. .. SPDX-License-Identifier: CC-BY-4.0 ================================= C Interface to Scalable Allocator ================================= **[memory_allocation.scalable_alloc_c_interface]** Low-level interface for scalable memory allocation. .. code:: cpp // Defined in header extern "C" { // Scalable analogs of C memory allocator void* scalable_malloc( size_t size ); void scalable_free( void* ptr ); void* scalable_calloc( size_t nobj, size_t size ); void* scalable_realloc( void* ptr, size_t size ); // Analog of _msize/malloc_size/malloc_usable_size. size_t scalable_msize( void* ptr ); // Scalable analog of posix_memalign int scalable_posix_memalign( void** memptr, size_t alignment, size_t size ); // Aligned allocation void* scalable_aligned_malloc( size_t size, size_t alignment); void scalable_aligned_free( void* ptr ); void* scalable_aligned_realloc( void* ptr, size_t size, size_t alignment ); // Return values for scalable_allocation_* functions typedef enum { TBBMALLOC_OK, TBBMALLOC_INVALID_PARAM, TBBMALLOC_UNSUPPORTED, TBBMALLOC_NO_MEMORY, TBBMALLOC_NO_EFFECT } ScalableAllocationResult; typedef enum { // To turn on/off the use of huge memory pages TBBMALLOC_USE_HUGE_PAGES, // To set a threshold for the allocator memory usage. // Exceeding it will forcefully clean internal memory buffers TBBMALLOC_SET_SOFT_HEAP_LIMIT, // Lower bound for the size (Bytes), that is interpreted as huge // and not released during regular cleanup operations TBBMALLOC_SET_HUGE_SIZE_THRESHOLD } AllocationModeParam; // Set allocator-specific allocation modes. int scalable_allocation_mode(int param, intptr_t value); typedef enum { // Clean internal allocator buffers for all threads. TBBMALLOC_CLEAN_ALL_BUFFERS, // Clean internal allocator buffer for current thread only. TBBMALLOC_CLEAN_THREAD_BUFFERS } ScalableAllocationCmd; // Call allocator-specific commands. int scalable_allocation_command(int cmd, void *param); } These functions provide a C-level interface to the scalable allocator. With the exception of ``scalable_allocation_mode`` and ``scalable_allocation_command``, each routine ``scalable_x`` behaves analogously to the library function ``x``. The routines form the two families shown in the table below, "C Interface to Scalable Allocator". Storage allocated by a ``scalable_x`` function in one family must be freed or resized by the ``scalable_x`` function in the same family, not by a C standard library function. Likewise, storage allocated by a C standard library function should not be freed or resized by a ``scalable_x`` function. .. table:: C Interface to Scalable Allocator +--------------------------+-----------------------+-------------------------------+ | Allocation Routine | Deallocation Routine | Analogous Library | +==========================+=======================+===============================+ | scalable_malloc | scalable_free | C standard library | +--------------------------+ + + | scalable_calloc | | | +--------------------------+ + + | scalable_realloc | | | +--------------------------+ +-------------------------------+ | scalable_posix_memalign | | POSIX* | +--------------------------+-----------------------+-------------------------------+ | scalable_aligned_malloc | scalable_aligned_free | Microsoft* C run-time library | +--------------------------+ + + | scalable_aligned_realloc | | | +--------------------------+-----------------------+-------------------------------+ The following functions do not allocate or free memory but allow obtaining useful information or influencing behavior of the memory allocator. .. cpp:function:: size_t scalable_msize( void* ptr ) **Returns:** The usable size of the memory block pointed to by *ptr* if it was allocated by the scalable allocator. Returns zero if *ptr* does not point to such a block. .. cpp:function:: int scalable_allocation_mode(int mode, intptr_t value) Use this function to adjust behavior of the scalable memory allocator. **Returns**: TBBMALLOC_OK if the operation succeeded, TBBMALLOC_INVALID_PARAM if ``mode`` is not one of the described below, or if ``value`` is not valid for the given mode. Other return values are possible, as described below. ---------------------------------------------------------------------------------------------- **scalable_allocation_mode Parameters: Parameter, Description** .. c:macro:: TBBMALLOC_USE_HUGE_PAGES ``scalable_allocation_mode(TBBMALLOC_USE_HUGE_PAGES, 1)`` tells the allocator to use huge pages if enabled by the operating system. ``scalable_allocation_mode(TBBMALLOC_USE_HUGE_PAGES, 0)`` disables it. Setting ``TBB_MALLOC_USE_HUGE_PAGES`` environment variable to 1 has the same effect as ``scalable_allocation_mode(TBBMALLOC_USE_HUGE_PAGES, 1)``. The mode set with ``scalable_allocation_mode()`` takes priority over the environment variable. **May return**: ``TBBMALLOC_NO_EFFECT`` if huge pages are not supported on the platform. For now, this allocation mode is only supported for Linux* OS. It works with both explicitly configured and transparent huge pages. For information about enabling and configuring huge pages, refer to OS documentation or ask your system administrator. .. c:macro:: TBBMALLOC_SET_SOFT_HEAP_LIMIT ``scalable_allocation_mode(TBBMALLOC_SET_SOFT_HEAP_LIMIT, size)`` sets a threshold of ``size`` bytes on the amount of memory the allocator takes from OS. Exceeding the threshold urges the allocator to release memory from its internal buffers; however it does not prevent from requesting more memory if needed. .. c:macro:: TBBMALLOC_SET_HUGE_SIZE_THRESHOLD ``scalable_allocation_mode(TBBMALLOC_SET_HUGE_SIZE_THRESHOLD, size)`` sets a lower bound threshold (with no upper limit) of ``size`` bytes. Any object bigger than this threshold becomes huge and does not participate in internal periodic cleanup logic. However, it does not affect the logic of the ``TBBMALLOC_SET_SOFT_HEAP_LIMIT`` mode as well as the ``TBBMALLOC_CLEAN_ALL_BUFFERS`` operation. Setting ``TBB_MALLOC_SET_HUGE_SIZE_THRESHOLD`` environment variable to the size value has the same effect, but is limited to the ``LONG_MAX`` value. The mode set with ``scalable_allocation_mode`` takes priority over the environment variable. ---------------------------------------------------------------------------------------------- .. c:function:: int scalable_allocation_command(int cmd, void* reserved) This function may be used to command the scalable memory allocator to perform an action specified by the first parameter. The second parameter is reserved and must be set to 0. **Returns**: ``TBBMALLOC_OK`` if the operation succeeded, ``TBBMALLOC_INVALID_PARAM`` if ``cmd`` is not one of the described below, or if ``reserved`` is not equal to 0. ---------------------------------------------------------------------------------------------- **scalable_allocation_command Parameters: Parameter, Description** .. c:macro:: TBBMALLOC_CLEAN_ALL_BUFFERS ``scalable_allocation_command(TBBMALLOC_CLEAN_ALL_BUFFERS, 0)`` cleans internal memory buffers of the allocator, and possibly reduces memory footprint. It may result in increased time for subsequent memory allocation requests. The command is not designed for frequent use, and careful evaluation of the performance impact is recommended. **May return**: ``TBBMALLOC_NO_EFFECT`` if no buffers were released. .. note:: It is not guaranteed that the call will release all unused memory. .. c:macro:: TBBMALLOC_CLEAN_THREAD_BUFFERS ``scalable_allocation_command(TBBMALLOC_CLEAN_THREAD_BUFFERS, 0)`` cleans internal memory buffers, but only for the calling thread. **May return**: ``TBBMALLOC_NO_EFFECT`` if no buffers were released.