/**************************************************************************** * mm/mm_gran/mm_graninit.c * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. The * ASF licenses this file to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance with the * License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations * under the License. * ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include #include #include "mm_gran/mm_gran.h" #ifdef CONFIG_GRAN /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * Name: gran_initialize * * Description: * Set up one granule allocator instance. Allocations will be aligned to * the alignment size (log2align; allocations will be in units of the * granule size (log2gran). Larger granules will give better performance * and less overhead but more losses of memory due to quantization waste. * Additional memory waste can occur from alignment; log2align should be * set to 0 unless you are using the granule allocator to manage DMA * or page-aligned memory and your hardware has specific memory alignment * requirements. * * General Usage Summary. This is an example using the GCC section * attribute to position a DMA heap in memory (logic in the linker script * would assign the section .dmaheap to the DMA memory. * * FAR uint32_t g_dmaheap[DMAHEAP_SIZE] locate_data(.dmaheap); * * The heap is created by calling gran_initialize(). Here the granule size * is set to 64 bytes (2**6) and the alignment to 16 bytes (2**4): * * GRAN_HANDLE handle = gran_initialize(g_dmaheap, DMAHEAP_SIZE, 6, 4); * * Then the GRAN_HANDLE can be used to allocate memory: * * FAR uint8_t *dma_memory = (FAR uint8_t *)gran_alloc(handle, 47); * * The actual memory allocates will be 64 byte (wasting 17 bytes) and * will be aligned at least to (1 << log2align). * * NOTE: The current implementation also restricts the maximum allocation * size to 32 granules. That restriction could be eliminated with some * additional coding effort. * * Input Parameters: * heapstart - Start of the granule allocation heap * heapsize - Size of heap in bytes * log2gran - Log base 2 of the size of one granule. 0->1 byte, * 1->2 bytes, 2->4 bytes, 3->8 bytes, etc. * log2align - Log base 2 of required alignment. 0->1 byte, * 1->2 bytes, 2->4 bytes, 3->8 bytes, etc. Note that * log2gran must be greater than or equal to log2align * so that all contiguous granules in memory will meet * the minimum alignment requirement. A value of zero * would mean that no alignment is required. * * Returned Value: * On success, a non-NULL handle is returned that may be used with other * granule allocator interfaces. * ****************************************************************************/ GRAN_HANDLE gran_initialize(FAR void *heapstart, size_t heapsize, uint8_t log2gran, uint8_t log2align) { FAR struct gran_s *priv; uintptr_t heapend; uintptr_t alignedstart; unsigned int mask; unsigned int alignedsize; unsigned int ngranules; /* Check parameters if debug is on. Note the size of a granule is * limited to 2**31 bytes and that the size of the granule must be greater * than or equal to the alignment size. */ DEBUGASSERT(heapstart && heapsize > 0 && log2gran > 0 && log2gran < 32 && log2gran >= log2align); /* Get the aligned start of the heap */ mask = (1 << log2align) - 1; alignedstart = ((uintptr_t)heapstart + mask) & ~mask; /* Determine the number of granules */ mask = (1 << log2gran) - 1; heapend = (uintptr_t)heapstart + heapsize; alignedsize = (heapend - alignedstart) & ~mask; ngranules = alignedsize >> log2gran; /* Allocate the information structure with a granule table of the * correct size. */ priv = kmm_zalloc(SIZEOF_GRAN_S(ngranules)); if (priv) { /* Initialize non-zero elements of the granules heap info structure */ priv->log2gran = log2gran; priv->ngranules = ngranules; priv->heapstart = alignedstart; /* Initialize mutual exclusion support */ #ifndef CONFIG_GRAN_INTR nxmutex_init(&priv->lock); #endif } return (GRAN_HANDLE)priv; } #endif /* CONFIG_GRAN */