esp-idf/components/hal/cache_hal.c

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/*
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* SPDX-FileCopyrightText: 2021-2023 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <sys/param.h>
#include <stdint.h>
#include "sdkconfig.h"
#include "esp_err.h"
#include "esp_attr.h"
#include "hal/assert.h"
#include "hal/cache_hal.h"
#include "hal/cache_types.h"
#include "hal/cache_ll.h"
#include "hal/mmu_hal.h"
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#include "hal/mmu_ll.h"
#include "soc/soc_caps.h"
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#include "rom/cache.h"
/*------------------------------------------------------------------------------
* Unified Cache Control
* See cache_hal.h for more info about these HAL APIs
* This file is in internal RAM.
* Now this file doesn't compile on ESP32
*----------------------------------------------------------------------------*/
/**
* To know if autoload is enabled or not.
*
* We should have a unified flag for this aim, then we don't need to call following 2 functions
* to know the flag.
*
* Suggest ROM keeping this flag value to BIT(2). Then we can replace following lines to:
* #define DATA_AUTOLOAD_FLAG BIT(2)
* #define INST_AUTOLOAD_FLAG BIT(2)
*/
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#if CONFIG_IDF_TARGET_ESP32P4 //TODO: IDF-7516
#define DATA_AUTOLOAD_ENABLE Cache_Disable_L2_Cache()
#define INST_AUTOLOAD_ENABLE Cache_Disable_L2_Cache()
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#else
#define DATA_AUTOLOAD_ENABLE cache_ll_is_cache_autoload_enabled(CACHE_TYPE_DATA)
#define INST_AUTOLOAD_ENABLE cache_ll_is_cache_autoload_enabled(CACHE_TYPE_INSTRUCTION)
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#endif
/**
* Necessary hal contexts, could be maintained by upper layer in the future
*/
typedef struct {
bool data_autoload_en;
bool inst_autoload_en;
#if CACHE_LL_ENABLE_DISABLE_STATE_SW
// There's no register indicating if cache is enabled on these chips, use sw flag to save this state.
volatile bool cache_enabled;
#endif
} cache_hal_context_t;
static cache_hal_context_t ctx;
void cache_hal_init(void)
{
ctx.data_autoload_en = DATA_AUTOLOAD_ENABLE;
ctx.inst_autoload_en = INST_AUTOLOAD_ENABLE;
#if SOC_CACHE_L2_SUPPORTED
Cache_Enable_L2_Cache(ctx.inst_autoload_en);
#else
cache_ll_enable_cache(CACHE_TYPE_ALL, ctx.inst_autoload_en, ctx.data_autoload_en);
#endif //SOC_CACHE_L2_SUPPORTED
cache_ll_l1_enable_bus(0, CACHE_LL_DEFAULT_DBUS_MASK);
cache_ll_l1_enable_bus(0, CACHE_LL_DEFAULT_IBUS_MASK);
#if !CONFIG_FREERTOS_UNICORE
cache_ll_l1_enable_bus(1, CACHE_LL_DEFAULT_DBUS_MASK);
cache_ll_l1_enable_bus(1, CACHE_LL_DEFAULT_IBUS_MASK);
#endif
#if CACHE_LL_ENABLE_DISABLE_STATE_SW
ctx.cache_enabled = 1;
#endif
}
void cache_hal_disable(cache_type_t type)
{
#if SOC_CACHE_L2_SUPPORTED
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Cache_Disable_L2_Cache();
#else
cache_ll_disable_cache(type);
#endif //SOC_CACHE_L2_SUPPORTED
#if CACHE_LL_ENABLE_DISABLE_STATE_SW
ctx.cache_enabled = 0;
#endif
}
void cache_hal_enable(cache_type_t type)
{
#if SOC_CACHE_L2_SUPPORTED
Cache_Enable_L2_Cache(ctx.inst_autoload_en);
#else
cache_ll_enable_cache(type, ctx.inst_autoload_en, ctx.data_autoload_en);
#endif //SOC_CACHE_L2_SUPPORTED
#if CACHE_LL_ENABLE_DISABLE_STATE_SW
ctx.cache_enabled = 1;
#endif
}
void cache_hal_suspend(cache_type_t type)
{
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#if SOC_CACHE_L2_SUPPORTED
Cache_Suspend_L2_Cache();
#else
cache_ll_suspend_cache(type);
#endif //SOC_CACHE_L2_SUPPORTED
#if CACHE_LL_ENABLE_DISABLE_STATE_SW
ctx.cache_enabled = 0;
#endif
}
void cache_hal_resume(cache_type_t type)
{
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#if SOC_CACHE_L2_SUPPORTED
Cache_Resume_L2_Cache(ctx.inst_autoload_en);
#else
cache_ll_resume_cache(type, ctx.inst_autoload_en, ctx.data_autoload_en);
#endif
#if CACHE_LL_ENABLE_DISABLE_STATE_SW
ctx.cache_enabled = 1;
#endif
}
bool cache_hal_is_cache_enabled(cache_type_t type)
{
bool enabled;
#if CACHE_LL_ENABLE_DISABLE_STATE_SW
enabled = ctx.cache_enabled;
#else
enabled = cache_ll_is_cache_enabled(type);
#endif //CACHE_LL_ENABLE_DISABLE_STATE_SW
return enabled;
}
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void cache_hal_invalidate_addr(uint32_t vaddr, uint32_t size)
{
//Now only esp32 has 2 MMUs, this file doesn't build on esp32
HAL_ASSERT(mmu_hal_check_valid_ext_vaddr_region(0, vaddr, size, MMU_VADDR_DATA | MMU_VADDR_INSTRUCTION));
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#if CONFIG_IDF_TARGET_ESP32P4
Cache_Invalidate_Addr(CACHE_MAP_L1_DCACHE | CACHE_MAP_L2_CACHE, vaddr, size);
#else
cache_ll_invalidate_addr(vaddr, size);
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#endif
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}
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#if SOC_CACHE_WRITEBACK_SUPPORTED
void cache_hal_writeback_addr(uint32_t vaddr, uint32_t size)
{
HAL_ASSERT(mmu_hal_check_valid_ext_vaddr_region(0, vaddr, size, MMU_VADDR_DATA));
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#if CONFIG_IDF_TARGET_ESP32P4
Cache_WriteBack_Addr(CACHE_MAP_L1_DCACHE, vaddr, size);
Cache_WriteBack_Addr(CACHE_MAP_L2_CACHE, vaddr, size);
#else
cache_ll_writeback_addr(vaddr, size);
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#endif
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}
#endif //#if SOC_CACHE_WRITEBACK_SUPPORTED
#if SOC_CACHE_FREEZE_SUPPORTED
void cache_hal_freeze(cache_type_t type)
{
#if SOC_CACHE_L2_SUPPORTED
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Cache_Freeze_L2_Cache_Enable(CACHE_FREEZE_ACK_BUSY);
#else
cache_ll_freeze_cache(type);
#endif //SOC_CACHE_L2_SUPPORTED
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}
void cache_hal_unfreeze(cache_type_t type)
{
#if SOC_CACHE_L2_SUPPORTED
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Cache_Freeze_L2_Cache_Disable();
#else
cache_ll_unfreeze_cache(type);
#endif //SOC_CACHE_L2_SUPPORTED
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}
#endif //#if SOC_CACHE_FREEZE_SUPPORTED
uint32_t cache_hal_get_cache_line_size(cache_type_t type)
{
uint32_t line_size = 0;
#if SOC_CACHE_L2_SUPPORTED
line_size = Cache_Get_L2_Cache_Line_Size();
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#else
line_size = cache_ll_get_line_size(type);
#endif //SOC_CACHE_L2_SUPPORTED
return line_size;
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}