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/*
* SPDX - FileCopyrightText : 2023 Espressif Systems ( Shanghai ) CO LTD
*
* SPDX - License - Identifier : Apache - 2.0
*/
# include <sys/param.h>
# include <inttypes.h>
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# include <string.h>
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# include "sdkconfig.h"
# include "esp_check.h"
# include "esp_log.h"
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# include "esp_heap_caps.h"
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# include "esp_rom_caps.h"
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# include "soc/soc_caps.h"
# include "hal/mmu_hal.h"
# include "hal/cache_hal.h"
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# include "hal/cache_ll.h"
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# include "esp_cache.h"
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# include "esp_private/esp_cache_private.h"
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# include "esp_private/critical_section.h"
static const char * TAG = " cache " ;
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# define ALIGN_UP_BY(num, align) (((num) + ((align) - 1)) & ~((align) - 1))
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DEFINE_CRIT_SECTION_LOCK_STATIC ( s_spinlock ) ;
esp_err_t esp_cache_msync ( void * addr , size_t size , int flags )
{
ESP_RETURN_ON_FALSE_ISR ( addr , ESP_ERR_INVALID_ARG , TAG , " null pointer " ) ;
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uint32_t addr_end = 0 ;
bool ovf = __builtin_add_overflow ( ( uint32_t ) addr , size , & addr_end ) ;
ESP_EARLY_LOGV ( TAG , " addr_end: 0x%x \n " , addr_end ) ;
ESP_RETURN_ON_FALSE_ISR ( ! ovf , ESP_ERR_INVALID_ARG , TAG , " wrong size, total size overflow " ) ;
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bool both_dir = ( flags & ESP_CACHE_MSYNC_FLAG_DIR_C2M ) & & ( flags & ESP_CACHE_MSYNC_FLAG_DIR_M2C ) ;
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bool both_type = ( flags & ESP_CACHE_MSYNC_FLAG_TYPE_DATA ) & & ( flags & ESP_CACHE_MSYNC_FLAG_TYPE_INST ) ;
ESP_RETURN_ON_FALSE_ISR ( ! both_dir & & ! both_type , ESP_ERR_INVALID_ARG , TAG , " both C2M and M2C directions, or both data and instruction type are selected, you should only select one direction or one type " ) ;
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uint32_t vaddr = ( uint32_t ) addr ;
bool valid = false ;
uint32_t cache_level = 0 ;
uint32_t cache_id = 0 ;
valid = cache_hal_vaddr_to_cache_level_id ( vaddr , size , & cache_level , & cache_id ) ;
ESP_RETURN_ON_FALSE_ISR ( valid , ESP_ERR_INVALID_ARG , TAG , " invalid addr or null pointer " ) ;
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cache_type_t cache_type = CACHE_TYPE_DATA ;
if ( flags & ESP_CACHE_MSYNC_FLAG_TYPE_INST ) {
cache_type = CACHE_TYPE_INSTRUCTION ;
}
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uint32_t cache_line_size = cache_hal_get_cache_line_size ( cache_level , cache_type ) ;
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if ( ( flags & ESP_CACHE_MSYNC_FLAG_UNALIGNED ) = = 0 ) {
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bool aligned_addr = ( ( ( uint32_t ) addr % cache_line_size ) = = 0 ) & & ( ( size % cache_line_size ) = = 0 ) ;
ESP_RETURN_ON_FALSE_ISR ( aligned_addr , ESP_ERR_INVALID_ARG , TAG , " start address: 0x%x, or the size: 0x%x is(are) not aligned with cache line size (0x%x)B " , ( uint32_t ) addr , size , cache_line_size ) ;
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}
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if ( flags & ESP_CACHE_MSYNC_FLAG_DIR_M2C ) {
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ESP_EARLY_LOGV ( TAG , " M2C DIR " ) ;
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esp_os_enter_critical_safe ( & s_spinlock ) ;
//Add preload feature / flag here, IDF-7800
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valid = cache_hal_invalidate_addr ( vaddr , size ) ;
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esp_os_exit_critical_safe ( & s_spinlock ) ;
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assert ( valid ) ;
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} else {
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ESP_EARLY_LOGV ( TAG , " C2M DIR " ) ;
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if ( flags & ESP_CACHE_MSYNC_FLAG_TYPE_INST ) {
ESP_RETURN_ON_FALSE_ISR ( false , ESP_ERR_INVALID_ARG , TAG , " C2M direction doesn't support instruction type " ) ;
}
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# if SOC_CACHE_WRITEBACK_SUPPORTED
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esp_os_enter_critical_safe ( & s_spinlock ) ;
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valid = cache_hal_writeback_addr ( vaddr , size ) ;
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esp_os_exit_critical_safe ( & s_spinlock ) ;
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assert ( valid ) ;
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if ( flags & ESP_CACHE_MSYNC_FLAG_INVALIDATE ) {
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esp_os_enter_critical_safe ( & s_spinlock ) ;
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valid & = cache_hal_invalidate_addr ( vaddr , size ) ;
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esp_os_exit_critical_safe ( & s_spinlock ) ;
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}
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assert ( valid ) ;
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# endif
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}
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return ESP_OK ;
}
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esp_err_t esp_cache_aligned_malloc ( size_t size , uint32_t flags , void * * out_ptr , size_t * actual_size )
{
ESP_RETURN_ON_FALSE_ISR ( out_ptr , ESP_ERR_INVALID_ARG , TAG , " null pointer " ) ;
uint32_t cache_level = CACHE_LL_LEVEL_INT_MEM ;
uint32_t heap_caps = 0 ;
uint32_t data_cache_line_size = 0 ;
void * ptr = NULL ;
if ( flags & ESP_CACHE_MALLOC_FLAG_PSRAM ) {
cache_level = CACHE_LL_LEVEL_EXT_MEM ;
heap_caps | = MALLOC_CAP_SPIRAM ;
} else {
heap_caps | = MALLOC_CAP_INTERNAL ;
if ( flags & ESP_CACHE_MALLOC_FLAG_DMA ) {
heap_caps | = MALLOC_CAP_DMA ;
}
}
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data_cache_line_size = cache_hal_get_cache_line_size ( cache_level , CACHE_TYPE_DATA ) ;
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if ( data_cache_line_size = = 0 ) {
//default alignment
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data_cache_line_size = 4 ;
}
size = ALIGN_UP_BY ( size , data_cache_line_size ) ;
ptr = heap_caps_aligned_alloc ( data_cache_line_size , size , heap_caps ) ;
ESP_RETURN_ON_FALSE_ISR ( ptr , ESP_ERR_NO_MEM , TAG , " no enough heap memory for (% " PRId32 " )B alignment " , data_cache_line_size ) ;
* out_ptr = ptr ;
if ( actual_size ) {
* actual_size = size ;
}
return ESP_OK ;
}
esp_err_t esp_cache_aligned_calloc ( size_t n , size_t size , uint32_t flags , void * * out_ptr , size_t * actual_size )
{
ESP_RETURN_ON_FALSE_ISR ( out_ptr , ESP_ERR_INVALID_ARG , TAG , " null pointer " ) ;
esp_err_t ret = ESP_FAIL ;
size_t size_bytes = 0 ;
bool ovf = false ;
ovf = __builtin_mul_overflow ( n , size , & size_bytes ) ;
ESP_RETURN_ON_FALSE_ISR ( ! ovf , ESP_ERR_INVALID_ARG , TAG , " wrong size, total size overflow " ) ;
void * ptr = NULL ;
ret = esp_cache_aligned_malloc ( size_bytes , flags , & ptr , actual_size ) ;
if ( ret = = ESP_OK ) {
memset ( ptr , 0 , size_bytes ) ;
* out_ptr = ptr ;
}
return ret ;
}
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esp_err_t esp_cache_get_alignment ( uint32_t flags , size_t * out_alignment )
{
ESP_RETURN_ON_FALSE ( out_alignment , ESP_ERR_INVALID_ARG , TAG , " null pointer " ) ;
uint32_t cache_level = CACHE_LL_LEVEL_INT_MEM ;
uint32_t data_cache_line_size = 0 ;
if ( flags & ESP_CACHE_MALLOC_FLAG_PSRAM ) {
cache_level = CACHE_LL_LEVEL_EXT_MEM ;
}
data_cache_line_size = cache_hal_get_cache_line_size ( cache_level , CACHE_TYPE_DATA ) ;
if ( data_cache_line_size = = 0 ) {
//default alignment
data_cache_line_size = 4 ;
}
* out_alignment = data_cache_line_size ;
return ESP_OK ;
}