arduino-esp32/tools/sdk/include/esp32/esp_heap_alloc_caps.h

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// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD
//
// Licensed 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.
#ifndef HEAP_ALLOC_CAPS_H
#define HEAP_ALLOC_CAPS_H
/**
* @brief Flags to indicate the capabilities of the various memory systems
*/
#define MALLOC_CAP_EXEC (1<<0) ///< Memory must be able to run executable code
#define MALLOC_CAP_32BIT (1<<1) ///< Memory must allow for aligned 32-bit data accesses
#define MALLOC_CAP_8BIT (1<<2) ///< Memory must allow for 8/16/...-bit data accesses
#define MALLOC_CAP_DMA (1<<3) ///< Memory must be able to accessed by DMA
#define MALLOC_CAP_PID2 (1<<4) ///< Memory must be mapped to PID2 memory space
#define MALLOC_CAP_PID3 (1<<5) ///< Memory must be mapped to PID3 memory space
#define MALLOC_CAP_PID4 (1<<6) ///< Memory must be mapped to PID4 memory space
#define MALLOC_CAP_PID5 (1<<7) ///< Memory must be mapped to PID5 memory space
#define MALLOC_CAP_PID6 (1<<8) ///< Memory must be mapped to PID6 memory space
#define MALLOC_CAP_PID7 (1<<9) ///< Memory must be mapped to PID7 memory space
#define MALLOC_CAP_SPISRAM (1<<10) ///< Memory must be in SPI SRAM
#define MALLOC_CAP_INVALID (1<<31) ///< Memory can't be used / list end marker
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/**
* @brief Initialize the capability-aware heap allocator.
*
* For the ESP32, this is called once in the startup code.
*/
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void heap_alloc_caps_init();
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/**
* @brief Enable the memory region where the startup stacks are located for allocation
*
* On startup, the pro/app CPUs have a certain memory region they use as stack, so we
* cannot do allocations in the regions these stack frames are. When FreeRTOS is
* completely started, they do not use that memory anymore and allocation there can
* be re-enabled.
*/
void heap_alloc_enable_nonos_stack_tag();
/**
* @brief Allocate a chunk of memory which has the given capabilities
*
* @param xWantedSize Size, in bytes, of the amount of memory to allocate
* @param caps Bitwise OR of MALLOC_CAP_* flags indicating the type
* of memory to be returned
*
* @return A pointer to the memory allocated on success, NULL on failure
*/
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void *pvPortMallocCaps(size_t xWantedSize, uint32_t caps);
/**
* @brief Get the total free size of all the regions that have the given capabilities
*
* This function takes all regions capable of having the given capabilities allocated in them
* and adds up the free space they have.
*
* @param caps Bitwise OR of MALLOC_CAP_* flags indicating the type
* of memory
*
* @return Amount of free bytes in the regions
*/
size_t xPortGetFreeHeapSizeCaps( uint32_t caps );
/**
* @brief Get the total minimum free memory of all regions with the given capabilities
*
* This adds all the lowmarks of the regions capable of delivering the memory with the
* given capabilities
*
* @param caps Bitwise OR of MALLOC_CAP_* flags indicating the type
* of memory
*
* @return Amount of free bytes in the regions
*/
size_t xPortGetMinimumEverFreeHeapSizeCaps( uint32_t caps );
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/**
* @brief Convenience function to check if a pointer is DMA-capable.
*
* @param ptr Pointer to check
*
* @return True if DMA-capable, false if not.
*/
static inline bool esp_ptr_dma_capable( const void *ptr )
{
return ( (int)ptr >= 0x3FFAE000 && (int)ptr < 0x40000000 );
}
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#endif