mirror of
https://github.com/espressif/esp-idf.git
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39f789df93
modify existing patch of TLSF rom and add multi heap patch to add the walker feature to the ROM implementation of the heap component.
500 lines
20 KiB
C
500 lines
20 KiB
C
/*
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* SPDX-FileCopyrightText: 2019-2024 Espressif Systems (Shanghai) CO LTD
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#pragma once
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#include <stdint.h>
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#include <stdlib.h>
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#include "multi_heap.h"
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#include <sdkconfig.h>
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#include "esp_err.h"
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#include "esp_attr.h"
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#ifdef __cplusplus
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extern "C" {
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#endif
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#if CONFIG_HEAP_PLACE_FUNCTION_INTO_FLASH
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#define HEAP_IRAM_ATTR
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#else
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#define HEAP_IRAM_ATTR IRAM_ATTR
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#endif
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/**
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* @brief Flags to indicate the capabilities of the various memory systems
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*/
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#define MALLOC_CAP_EXEC (1<<0) ///< Memory must be able to run executable code
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#define MALLOC_CAP_32BIT (1<<1) ///< Memory must allow for aligned 32-bit data accesses
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#define MALLOC_CAP_8BIT (1<<2) ///< Memory must allow for 8/16/...-bit data accesses
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#define MALLOC_CAP_DMA (1<<3) ///< Memory must be able to accessed by DMA
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#define MALLOC_CAP_PID2 (1<<4) ///< Memory must be mapped to PID2 memory space (PIDs are not currently used)
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#define MALLOC_CAP_PID3 (1<<5) ///< Memory must be mapped to PID3 memory space (PIDs are not currently used)
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#define MALLOC_CAP_PID4 (1<<6) ///< Memory must be mapped to PID4 memory space (PIDs are not currently used)
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#define MALLOC_CAP_PID5 (1<<7) ///< Memory must be mapped to PID5 memory space (PIDs are not currently used)
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#define MALLOC_CAP_PID6 (1<<8) ///< Memory must be mapped to PID6 memory space (PIDs are not currently used)
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#define MALLOC_CAP_PID7 (1<<9) ///< Memory must be mapped to PID7 memory space (PIDs are not currently used)
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#define MALLOC_CAP_SPIRAM (1<<10) ///< Memory must be in SPI RAM
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#define MALLOC_CAP_INTERNAL (1<<11) ///< Memory must be internal; specifically it should not disappear when flash/spiram cache is switched off
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#define MALLOC_CAP_DEFAULT (1<<12) ///< Memory can be returned in a non-capability-specific memory allocation (e.g. malloc(), calloc()) call
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#define MALLOC_CAP_IRAM_8BIT (1<<13) ///< Memory must be in IRAM and allow unaligned access
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#define MALLOC_CAP_RETENTION (1<<14) ///< Memory must be able to accessed by retention DMA
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#define MALLOC_CAP_RTCRAM (1<<15) ///< Memory must be in RTC fast memory
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#define MALLOC_CAP_TCM (1<<16) ///< Memory must be in TCM memory
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#define MALLOC_CAP_INVALID (1<<31) ///< Memory can't be used / list end marker
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/**
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* @brief callback called when an allocation operation fails, if registered
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* @param size in bytes of failed allocation
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* @param caps capabilities requested of failed allocation
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* @param function_name function which generated the failure
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*/
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typedef void (*esp_alloc_failed_hook_t) (size_t size, uint32_t caps, const char * function_name);
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/**
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* @brief registers a callback function to be invoked if a memory allocation operation fails
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* @param callback caller defined callback to be invoked
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* @return ESP_OK if callback was registered.
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*/
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esp_err_t heap_caps_register_failed_alloc_callback(esp_alloc_failed_hook_t callback);
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#ifdef CONFIG_HEAP_USE_HOOKS
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/**
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* @brief callback called after every allocation
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* @param ptr the allocated memory
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* @param size in bytes of the allocation
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* @param caps Bitwise OR of MALLOC_CAP_* flags indicating the type of memory allocated.
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* @note this hook is called on the same thread as the allocation, which may be within a low level operation.
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* You should refrain from doing heavy work, logging, flash writes, or any locking.
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*/
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__attribute__((weak)) HEAP_IRAM_ATTR void esp_heap_trace_alloc_hook(void* ptr, size_t size, uint32_t caps);
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/**
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* @brief callback called after every free
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* @param ptr the memory that was freed
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* @note this hook is called on the same thread as the allocation, which may be within a low level operation.
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* You should refrain from doing heavy work, logging, flash writes, or any locking.
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*/
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__attribute__((weak)) HEAP_IRAM_ATTR void esp_heap_trace_free_hook(void* ptr);
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#endif
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/**
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* @brief Allocate a chunk of memory which has the given capabilities
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*
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* Equivalent semantics to libc malloc(), for capability-aware memory.
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*
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* @param size Size, in bytes, of the amount of memory to allocate
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* @param caps Bitwise OR of MALLOC_CAP_* flags indicating the type
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* of memory to be returned
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*
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* @return A pointer to the memory allocated on success, NULL on failure
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*/
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void *heap_caps_malloc(size_t size, uint32_t caps);
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/**
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* @brief Free memory previously allocated via heap_caps_malloc() or heap_caps_realloc().
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*
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* Equivalent semantics to libc free(), for capability-aware memory.
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*
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* In IDF, ``free(p)`` is equivalent to ``heap_caps_free(p)``.
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*
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* @param ptr Pointer to memory previously returned from heap_caps_malloc() or heap_caps_realloc(). Can be NULL.
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*/
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void heap_caps_free( void *ptr);
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/**
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* @brief Reallocate memory previously allocated via heap_caps_malloc() or heap_caps_realloc().
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*
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* Equivalent semantics to libc realloc(), for capability-aware memory.
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*
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* In IDF, ``realloc(p, s)`` is equivalent to ``heap_caps_realloc(p, s, MALLOC_CAP_8BIT)``.
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*
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* 'caps' parameter can be different to the capabilities that any original 'ptr' was allocated with. In this way,
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* realloc can be used to "move" a buffer if necessary to ensure it meets a new set of capabilities.
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*
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* @param ptr Pointer to previously allocated memory, or NULL for a new allocation.
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* @param size Size of the new buffer requested, or 0 to free the buffer.
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* @param caps Bitwise OR of MALLOC_CAP_* flags indicating the type
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* of memory desired for the new allocation.
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*
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* @return Pointer to a new buffer of size 'size' with capabilities 'caps', or NULL if allocation failed.
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*/
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void *heap_caps_realloc( void *ptr, size_t size, uint32_t caps);
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/**
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* @brief Allocate an aligned chunk of memory which has the given capabilities
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*
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* Equivalent semantics to libc aligned_alloc(), for capability-aware memory.
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* @param alignment How the pointer received needs to be aligned
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* must be a power of two
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* @param size Size, in bytes, of the amount of memory to allocate
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* @param caps Bitwise OR of MALLOC_CAP_* flags indicating the type
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* of memory to be returned
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*
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* @return A pointer to the memory allocated on success, NULL on failure
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*
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*
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*/
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void *heap_caps_aligned_alloc(size_t alignment, size_t size, uint32_t caps);
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/**
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* @brief Used to deallocate memory previously allocated with heap_caps_aligned_alloc
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*
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* @param ptr Pointer to the memory allocated
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* @note This function is deprecated, please consider using heap_caps_free() instead
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*/
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void __attribute__((deprecated)) heap_caps_aligned_free(void *ptr);
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/**
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* @brief Allocate an aligned chunk of memory which has the given capabilities. The initialized value in the memory is set to zero.
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*
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* @param alignment How the pointer received needs to be aligned
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* must be a power of two
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* @param n Number of continuing chunks of memory to allocate
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* @param size Size, in bytes, of a chunk of memory to allocate
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* @param caps Bitwise OR of MALLOC_CAP_* flags indicating the type
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* of memory to be returned
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*
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* @return A pointer to the memory allocated on success, NULL on failure
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*
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*/
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void *heap_caps_aligned_calloc(size_t alignment, size_t n, size_t size, uint32_t caps);
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/**
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* @brief Allocate a chunk of memory which has the given capabilities. The initialized value in the memory is set to zero.
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*
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* Equivalent semantics to libc calloc(), for capability-aware memory.
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*
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* In IDF, ``calloc(p)`` is equivalent to ``heap_caps_calloc(p, MALLOC_CAP_8BIT)``.
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*
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* @param n Number of continuing chunks of memory to allocate
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* @param size Size, in bytes, of a chunk of memory to allocate
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* @param caps Bitwise OR of MALLOC_CAP_* flags indicating the type
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* of memory to be returned
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*
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* @return A pointer to the memory allocated on success, NULL on failure
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*/
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void *heap_caps_calloc(size_t n, size_t size, uint32_t caps);
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/**
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* @brief Get the total size of all the regions that have the given capabilities
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*
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* This function takes all regions capable of having the given capabilities allocated in them
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* and adds up the total space they have.
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*
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* @param caps Bitwise OR of MALLOC_CAP_* flags indicating the type
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* of memory
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*
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* @return total size in bytes
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*/
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size_t heap_caps_get_total_size(uint32_t caps);
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/**
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* @brief Get the total free size of all the regions that have the given capabilities
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*
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* This function takes all regions capable of having the given capabilities allocated in them
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* and adds up the free space they have.
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*
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* @note Note that because of heap fragmentation it is probably not possible to allocate a single block of memory
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* of this size. Use heap_caps_get_largest_free_block() for this purpose.
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* @param caps Bitwise OR of MALLOC_CAP_* flags indicating the type
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* of memory
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*
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* @return Amount of free bytes in the regions
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*/
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size_t heap_caps_get_free_size( uint32_t caps );
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/**
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* @brief Get the total minimum free memory of all regions with the given capabilities
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*
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* This adds all the low watermarks of the regions capable of delivering the memory
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* with the given capabilities.
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*
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* @note Note the result may be less than the global all-time minimum available heap of this kind, as "low watermarks" are
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* tracked per-region. Individual regions' heaps may have reached their "low watermarks" at different points in time. However,
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* this result still gives a "worst case" indication for all-time minimum free heap.
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*
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* @param caps Bitwise OR of MALLOC_CAP_* flags indicating the type
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* of memory
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*
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* @return Amount of free bytes in the regions
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*/
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size_t heap_caps_get_minimum_free_size( uint32_t caps );
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/**
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* @brief Get the largest free block of memory able to be allocated with the given capabilities.
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*
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* Returns the largest value of ``s`` for which ``heap_caps_malloc(s, caps)`` will succeed.
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*
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* @param caps Bitwise OR of MALLOC_CAP_* flags indicating the type
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* of memory
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*
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* @return Size of the largest free block in bytes.
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*/
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size_t heap_caps_get_largest_free_block( uint32_t caps );
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/**
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* @brief Start monitoring the value of minimum_free_bytes from the moment this
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* function is called instead of from startup.
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*
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* @note This allows to detect local lows of the minimum_free_bytes value
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* that wouldn't be detected otherwise.
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*
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* @return esp_err_t ESP_OK if the function executed properly
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* ESP_FAIL if called when monitoring already active
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*/
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esp_err_t heap_caps_monitor_local_minimum_free_size_start(void);
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/**
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* @brief Stop monitoring the value of minimum_free_bytes. After this call
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* the minimum_free_bytes value calculated from startup will be returned in
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* heap_caps_get_info and heap_caps_get_minimum_free_size.
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*
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* @return esp_err_t ESP_OK if the function executed properly
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* ESP_FAIL if called when monitoring not active
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*/
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esp_err_t heap_caps_monitor_local_minimum_free_size_stop(void);
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/**
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* @brief Get heap info for all regions with the given capabilities.
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*
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* Calls multi_heap_info() on all heaps which share the given capabilities. The information returned is an aggregate
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* across all matching heaps. The meanings of fields are the same as defined for multi_heap_info_t, except that
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* ``minimum_free_bytes`` has the same caveats described in heap_caps_get_minimum_free_size().
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*
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* @param info Pointer to a structure which will be filled with relevant
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* heap metadata.
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* @param caps Bitwise OR of MALLOC_CAP_* flags indicating the type
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* of memory
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*
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*/
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void heap_caps_get_info( multi_heap_info_t *info, uint32_t caps );
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/**
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* @brief Print a summary of all memory with the given capabilities.
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*
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* Calls multi_heap_info on all heaps which share the given capabilities, and
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* prints a two-line summary for each, then a total summary.
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*
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* @param caps Bitwise OR of MALLOC_CAP_* flags indicating the type
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* of memory
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*
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*/
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void heap_caps_print_heap_info( uint32_t caps );
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/**
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* @brief Check integrity of all heap memory in the system.
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*
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* Calls multi_heap_check on all heaps. Optionally print errors if heaps are corrupt.
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*
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* Calling this function is equivalent to calling heap_caps_check_integrity
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* with the caps argument set to MALLOC_CAP_INVALID.
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*
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* @param print_errors Print specific errors if heap corruption is found.
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*
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* @note Please increase the value of `CONFIG_ESP_INT_WDT_TIMEOUT_MS` when using this API
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* with PSRAM enabled.
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*
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* @return True if all heaps are valid, False if at least one heap is corrupt.
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*/
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bool heap_caps_check_integrity_all(bool print_errors);
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/**
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* @brief Check integrity of all heaps with the given capabilities.
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*
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* Calls multi_heap_check on all heaps which share the given capabilities. Optionally
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* print errors if the heaps are corrupt.
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*
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* See also heap_caps_check_integrity_all to check all heap memory
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* in the system and heap_caps_check_integrity_addr to check memory
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* around a single address.
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*
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* @param caps Bitwise OR of MALLOC_CAP_* flags indicating the type
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* of memory
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* @param print_errors Print specific errors if heap corruption is found.
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*
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* @note Please increase the value of `CONFIG_ESP_INT_WDT_TIMEOUT_MS` when using this API
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* with PSRAM capability flag.
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*
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* @return True if all heaps are valid, False if at least one heap is corrupt.
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*/
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bool heap_caps_check_integrity(uint32_t caps, bool print_errors);
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/**
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* @brief Check integrity of heap memory around a given address.
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*
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* This function can be used to check the integrity of a single region of heap memory,
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* which contains the given address.
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*
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* This can be useful if debugging heap integrity for corruption at a known address,
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* as it has a lower overhead than checking all heap regions. Note that if the corrupt
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* address moves around between runs (due to timing or other factors) then this approach
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* won't work, and you should call heap_caps_check_integrity or
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* heap_caps_check_integrity_all instead.
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*
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* @note The entire heap region around the address is checked, not only the adjacent
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* heap blocks.
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*
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* @param addr Address in memory. Check for corruption in region containing this address.
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* @param print_errors Print specific errors if heap corruption is found.
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*
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* @return True if the heap containing the specified address is valid,
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* False if at least one heap is corrupt or the address doesn't belong to a heap region.
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*/
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bool heap_caps_check_integrity_addr(intptr_t addr, bool print_errors);
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/**
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* @brief Enable malloc() in external memory and set limit below which
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* malloc() attempts are placed in internal memory.
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*
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* When external memory is in use, the allocation strategy is to initially try to
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* satisfy smaller allocation requests with internal memory and larger requests
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* with external memory. This sets the limit between the two, as well as generally
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* enabling allocation in external memory.
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*
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* @param limit Limit, in bytes.
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*/
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void heap_caps_malloc_extmem_enable(size_t limit);
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/**
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* @brief Allocate a chunk of memory as preference in decreasing order.
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*
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* @attention The variable parameters are bitwise OR of MALLOC_CAP_* flags indicating the type of memory.
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* This API prefers to allocate memory with the first parameter. If failed, allocate memory with
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* the next parameter. It will try in this order until allocating a chunk of memory successfully
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* or fail to allocate memories with any of the parameters.
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*
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* @param size Size, in bytes, of the amount of memory to allocate
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* @param num Number of variable parameters
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*
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* @return A pointer to the memory allocated on success, NULL on failure
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*/
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void *heap_caps_malloc_prefer( size_t size, size_t num, ... );
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/**
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* @brief Reallocate a chunk of memory as preference in decreasing order.
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*
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* @param ptr Pointer to previously allocated memory, or NULL for a new allocation.
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* @param size Size of the new buffer requested, or 0 to free the buffer.
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* @param num Number of variable paramters
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*
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* @return Pointer to a new buffer of size 'size', or NULL if allocation failed.
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*/
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void *heap_caps_realloc_prefer( void *ptr, size_t size, size_t num, ... );
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/**
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* @brief Allocate a chunk of memory as preference in decreasing order.
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*
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* @param n Number of continuing chunks of memory to allocate
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* @param size Size, in bytes, of a chunk of memory to allocate
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* @param num Number of variable paramters
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*
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* @return A pointer to the memory allocated on success, NULL on failure
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*/
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void *heap_caps_calloc_prefer( size_t n, size_t size, size_t num, ... );
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/**
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* @brief Dump the full structure of all heaps with matching capabilities.
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*
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* Prints a large amount of output to serial (because of locking limitations,
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* the output bypasses stdout/stderr). For each (variable sized) block
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* in each matching heap, the following output is printed on a single line:
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*
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* - Block address (the data buffer returned by malloc is 4 bytes after this
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* if heap debugging is set to Basic, or 8 bytes otherwise).
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* - Data size (the data size may be larger than the size requested by malloc,
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* either due to heap fragmentation or because of heap debugging level).
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* - Address of next block in the heap.
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* - If the block is free, the address of the next free block is also printed.
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*
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* @param caps Bitwise OR of MALLOC_CAP_* flags indicating the type
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* of memory
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*/
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void heap_caps_dump(uint32_t caps);
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/**
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* @brief Dump the full structure of all heaps.
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*
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* Covers all registered heaps. Prints a large amount of output to serial.
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*
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* Output is the same as for heap_caps_dump.
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*
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*/
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void heap_caps_dump_all(void);
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/**
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* @brief Return the size that a particular pointer was allocated with.
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*
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* @param ptr Pointer to currently allocated heap memory. Must be a pointer value previously
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* returned by heap_caps_malloc, malloc, calloc, etc. and not yet freed.
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*
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* @note The app will crash with an assertion failure if the pointer is not valid.
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*
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* @return Size of the memory allocated at this block.
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*
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*/
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size_t heap_caps_get_allocated_size( void *ptr );
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/**
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* @brief Structure used to store heap related data passed to
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* the walker callback function
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*/
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typedef struct walker_heap_info {
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intptr_t start; ///< Start address of the heap in which the block is located
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intptr_t end; ///< End address of the heap in which the block is located
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} walker_heap_into_t;
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/**
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* @brief Structure used to store block related data passed to
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* the walker callback function
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*/
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typedef struct walker_block_info {
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void *ptr; ///< Pointer to the block data
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size_t size; ///< The size of the block
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bool used; ///< Block status. True: used, False: free
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} walker_block_info_t;
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|
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/**
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* @brief Function callback used to get information of memory block
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* during calls to heap_caps_walk or heap_caps_walk_all
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*
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* @param heap_info See walker_heap_into_t
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* @param block_info See walker_block_info_t
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* @param user_data Opaque pointer to user defined data
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|
*
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* @return True to proceed with the heap traversal
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* False to stop the traversal of the current heap and continue
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* with the traversal of the next heap (if any)
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|
*/
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|
typedef bool (*heap_caps_walker_cb_t)(walker_heap_into_t heap_info, walker_block_info_t block_info, void *user_data);
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|
|
|
/**
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|
* @brief Function called to walk through the heaps with the given set of capabilities
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|
*
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|
* @param caps The set of capabilities assigned to the heaps to walk through
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|
* @param walker_func Callback called for each block of the heaps being traversed
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|
* @param user_data Opaque pointer to user defined data
|
|
*/
|
|
void heap_caps_walk(uint32_t caps, heap_caps_walker_cb_t walker_func, void *user_data);
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|
|
|
/**
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|
* @brief Function called to walk through all heaps defined by the heap component
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|
*
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|
* @param walker_func Callback called for each block of the heaps being traversed
|
|
* @param user_data Opaque pointer to user defined data
|
|
*/
|
|
void heap_caps_walk_all(heap_caps_walker_cb_t walker_func, void *user_data);
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|
|
|
#ifdef __cplusplus
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|
}
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|
#endif
|