rt-thread-official/bsp/imxrt/libraries/MIMXRT1050/MIMXRT1052/drivers/fsl_cache.c

604 lines
23 KiB
C

/*
* Copyright (c) 2016, Freescale Semiconductor, Inc.
* Copyright 2016-2017 NXP
* All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include "fsl_cache.h"
/*******************************************************************************
* Definitions
******************************************************************************/
/* Component ID definition, used by tools. */
#ifndef FSL_COMPONENT_ID
#define FSL_COMPONENT_ID "platform.drivers.cache_armv7_m7"
#endif
#if defined(FSL_FEATURE_SOC_L2CACHEC_COUNT) && FSL_FEATURE_SOC_L2CACHEC_COUNT
#define L2CACHE_OPERATION_TIMEOUT 0xFFFFFU
#define L2CACHE_8WAYS_MASK 0xFFU
#define L2CACHE_16WAYS_MASK 0xFFFFU
#define L2CACHE_SMALLWAYS_NUM 8U
#define L2CACHE_1KBCOVERTOB 1024U
#define L2CACHE_SAMLLWAYS_SIZE 16U
#define L2CACHE_LOCKDOWN_REGNUM 8 /*!< Lock down register numbers.*/
/*******************************************************************************
* Prototypes
******************************************************************************/
/*!
* @brief Set for all ways and waiting for the operation finished.
* This is provided for all the background operations.
*
* @param auxCtlReg The auxiliary control register.
* @param regAddr The register address to be operated.
*/
static void L2CACHE_SetAndWaitBackGroundOperate(uint32_t auxCtlReg, uint32_t regAddr);
/*!
* @brief Invalidates the Level 2 cache line by physical address.
* This function invalidates a cache line by physcial address.
*
* @param address The physical addderss of the cache.
* The format of the address shall be :
* bit 31 ~ bit n+1 | bitn ~ bit5 | bit4 ~ bit0
* Tag | index | 0
* Note: the physical address shall be aligned to the line size - 32B (256 bit).
* so keep the last 5 bits (bit 4 ~ bit 0) of the physical address always be zero.
* If the input address is not aligned, it will be changed to 32-byte aligned address.
* The n is varies according to the index width.
* @return The actual 32-byte aligned physical address be operated.
*/
static uint32_t L2CACHE_InvalidateLineByAddr(uint32_t address);
/*!
* @brief Cleans the Level 2 cache line based on the physical address.
* This function cleans a cache line based on a physcial address.
*
* @param address The physical addderss of the cache.
* The format of the address shall be :
* bit 31 ~ bit n+1 | bitn ~ bit5 | bit4 ~ bit0
* Tag | index | 0
* Note: the physical address shall be aligned to the line size - 32B (256 bit).
* so keep the last 5 bits (bit 4 ~ bit 0) of the physical address always be zero.
* If the input address is not aligned, it will be changed to 32-byte aligned address.
* The n is varies according to the index width.
* @return The actual 32-byte aligned physical address be operated.
*/
static uint32_t L2CACHE_CleanLineByAddr(uint32_t address);
/*!
* @brief Cleans and invalidates the Level 2 cache line based on the physical address.
* This function cleans and invalidates a cache line based on a physcial address.
*
* @param address The physical addderss of the cache.
* The format of the address shall be :
* bit 31 ~ bit n+1 | bitn ~ bit5 | bit4 ~ bit0
* Tag | index | 0
* Note: the physical address shall be aligned to the line size - 32B (256 bit).
* so keep the last 5 bits (bit 4 ~ bit 0) of the physical address always be zero.
* If the input address is not aligned, it will be changed to 32-byte aligned address.
* The n is varies according to the index width.
* @return The actual 32-byte aligned physical address be operated.
*/
static uint32_t L2CACHE_CleanInvalidateLineByAddr(uint32_t address);
/*!
* @brief Gets the number of the Level 2 cache and the way size.
* This function cleans and invalidates a cache line based on a physcial address.
*
* @param num_ways The number of the cache way.
* @param size_way The way size.
*/
static void L2CACHE_GetWayNumSize(uint32_t *num_ways, uint32_t *size_way);
/*******************************************************************************
* Code
******************************************************************************/
static void L2CACHE_SetAndWaitBackGroundOperate(uint32_t auxCtlReg, uint32_t regAddr)
{
uint16_t mask = L2CACHE_8WAYS_MASK;
uint32_t timeout = L2CACHE_OPERATION_TIMEOUT;
/* Check the ways used at first. */
if (auxCtlReg & L2CACHEC_REG1_AUX_CONTROL_ASSOCIATIVITY_MASK)
{
mask = L2CACHE_16WAYS_MASK;
}
/* Set the opeartion for all ways/entries of the cache. */
*(uint32_t *)regAddr = mask;
/* Waiting for until the operation is complete. */
while ((*(volatile uint32_t *)regAddr & mask) && timeout)
{
__ASM("nop");
timeout--;
}
}
static uint32_t L2CACHE_InvalidateLineByAddr(uint32_t address)
{
/* Align the address first. */
address &= ~(uint32_t)(FSL_FEATURE_L2CACHE_LINESIZE_BYTE - 1);
/* Invalidate the cache line by physical address. */
L2CACHEC->REG7_INV_PA = address;
return address;
}
static uint32_t L2CACHE_CleanLineByAddr(uint32_t address)
{
/* Align the address first. */
address &= ~(uint32_t)(FSL_FEATURE_L2CACHE_LINESIZE_BYTE - 1);
/* Invalidate the cache line by physical address. */
L2CACHEC->REG7_CLEAN_PA = address;
return address;
}
static uint32_t L2CACHE_CleanInvalidateLineByAddr(uint32_t address)
{
/* Align the address first. */
address &= ~(uint32_t)(FSL_FEATURE_L2CACHE_LINESIZE_BYTE - 1);
/* Clean and invalidate the cache line by physical address. */
L2CACHEC->REG7_CLEAN_INV_PA = address;
return address;
}
static void L2CACHE_GetWayNumSize(uint32_t *num_ways, uint32_t *size_way)
{
assert(num_ways);
assert(size_way);
uint32_t number = (L2CACHEC->REG1_AUX_CONTROL & L2CACHEC_REG1_AUX_CONTROL_ASSOCIATIVITY_MASK) >>
L2CACHEC_REG1_AUX_CONTROL_ASSOCIATIVITY_SHIFT;
uint32_t size = (L2CACHEC->REG1_AUX_CONTROL & L2CACHEC_REG1_AUX_CONTROL_WAYSIZE_MASK) >>
L2CACHEC_REG1_AUX_CONTROL_WAYSIZE_SHIFT;
*num_ways = (number + 1) * L2CACHE_SMALLWAYS_NUM;
if (!size)
{
/* 0 internally mapped to the same size as 1 - 16KB.*/
size += 1;
}
*size_way = (1 << (size - 1)) * L2CACHE_SAMLLWAYS_SIZE * L2CACHE_1KBCOVERTOB;
}
/*!
* brief Initializes the level 2 cache controller module.
*
* param config Pointer to configuration structure. See "l2cache_config_t".
*/
void L2CACHE_Init(l2cache_config_t *config)
{
assert(config);
uint16_t waysNum = 0xFFU; /* Default use the 8-way mask. */
uint8_t count;
uint32_t auxReg = 0;
/*The aux register must be configured when the cachec is disabled
* So disable first if the cache controller is enabled.
*/
if (L2CACHEC->REG1_CONTROL & L2CACHEC_REG1_CONTROL_CE_MASK)
{
L2CACHE_Disable();
}
/* Unlock all entries. */
if (L2CACHEC->REG1_AUX_CONTROL & L2CACHEC_REG1_AUX_CONTROL_ASSOCIATIVITY_MASK)
{
waysNum = 0xFFFFU;
}
for (count = 0; count < L2CACHE_LOCKDOWN_REGNUM; count++)
{
L2CACHE_LockdownByWayEnable(count, waysNum, false);
}
/* Set the ways and way-size etc. */
auxReg = L2CACHEC_REG1_AUX_CONTROL_ASSOCIATIVITY(config->wayNum) |
L2CACHEC_REG1_AUX_CONTROL_WAYSIZE(config->waySize) | L2CACHEC_REG1_AUX_CONTROL_CRP(config->repacePolicy) |
L2CACHEC_REG1_AUX_CONTROL_IPE(config->istrPrefetchEnable) |
L2CACHEC_REG1_AUX_CONTROL_DPE(config->dataPrefetchEnable) |
L2CACHEC_REG1_AUX_CONTROL_NLE(config->nsLockdownEnable) |
L2CACHEC_REG1_AUX_CONTROL_FWA(config->writeAlloc) | L2CACHEC_REG1_AUX_CONTROL_HPSDRE(config->writeAlloc);
L2CACHEC->REG1_AUX_CONTROL = auxReg;
/* Set the tag/data ram latency. */
if (config->lateConfig)
{
uint32_t data = 0;
/* Tag latency. */
data = L2CACHEC_REG1_TAG_RAM_CONTROL_SL(config->lateConfig->tagSetupLate) |
L2CACHEC_REG1_TAG_RAM_CONTROL_SL(config->lateConfig->tagSetupLate) |
L2CACHEC_REG1_TAG_RAM_CONTROL_RAL(config->lateConfig->tagReadLate) |
L2CACHEC_REG1_TAG_RAM_CONTROL_WAL(config->lateConfig->dataWriteLate);
L2CACHEC->REG1_TAG_RAM_CONTROL = data;
/* Data latency. */
data = L2CACHEC_REG1_DATA_RAM_CONTROL_SL(config->lateConfig->dataSetupLate) |
L2CACHEC_REG1_DATA_RAM_CONTROL_SL(config->lateConfig->dataSetupLate) |
L2CACHEC_REG1_DATA_RAM_CONTROL_RAL(config->lateConfig->dataReadLate) |
L2CACHEC_REG1_DATA_RAM_CONTROL_WAL(config->lateConfig->dataWriteLate);
L2CACHEC->REG1_DATA_RAM_CONTROL = data;
}
}
/*!
* brief Gets an available default settings for the cache controller.
*
* This function initializes the cache controller configuration structure with default settings.
* The default values are:
* code
* config->waysNum = kL2CACHE_8ways;
* config->waySize = kL2CACHE_32KbSize;
* config->repacePolicy = kL2CACHE_Roundrobin;
* config->lateConfig = NULL;
* config->istrPrefetchEnable = false;
* config->dataPrefetchEnable = false;
* config->nsLockdownEnable = false;
* config->writeAlloc = kL2CACHE_UseAwcache;
* endcode
* param config Pointer to the configuration structure.
*/
void L2CACHE_GetDefaultConfig(l2cache_config_t *config)
{
assert(config);
/* Initializes the configure structure to zero. */
memset(config, 0, sizeof(*config));
uint32_t number = (L2CACHEC->REG1_AUX_CONTROL & L2CACHEC_REG1_AUX_CONTROL_ASSOCIATIVITY_MASK) >>
L2CACHEC_REG1_AUX_CONTROL_ASSOCIATIVITY_SHIFT;
uint32_t size = (L2CACHEC->REG1_AUX_CONTROL & L2CACHEC_REG1_AUX_CONTROL_WAYSIZE_MASK) >>
L2CACHEC_REG1_AUX_CONTROL_WAYSIZE_SHIFT;
/* Get the default value */
config->wayNum = (l2cache_way_num_t)number;
config->waySize = (l2cache_way_size)size;
config->repacePolicy = kL2CACHE_Roundrobin;
config->lateConfig = NULL;
config->istrPrefetchEnable = false;
config->dataPrefetchEnable = false;
config->nsLockdownEnable = false;
config->writeAlloc = kL2CACHE_UseAwcache;
}
/*!
* brief Enables the level 2 cache controller.
* This function enables the cache controller. Must be written using a secure access.
* If write with a Non-secure access will cause a DECERR response.
*
*/
void L2CACHE_Enable(void)
{
/* Invalidate first. */
L2CACHE_Invalidate();
/* Enable the level 2 cache controller. */
L2CACHEC->REG1_CONTROL = L2CACHEC_REG1_CONTROL_CE_MASK;
}
/*!
* brief Disables the level 2 cache controller.
* This function disables the cache controller. Must be written using a secure access.
* If write with a Non-secure access will cause a DECERR response.
*
*/
void L2CACHE_Disable(void)
{
/* First CleanInvalidate all enties in the cache. */
L2CACHE_CleanInvalidate();
/* Disable the level 2 cache controller. */
L2CACHEC->REG1_CONTROL &= ~L2CACHEC_REG1_CONTROL_CE_MASK;
/* DSB - data sync barrier.*/
__DSB();
}
/*!
* brief Invalidates the Level 2 cache.
* This function invalidates all entries in cache.
*
*/
void L2CACHE_Invalidate(void)
{
/* Invalidate all entries in cache. */
L2CACHE_SetAndWaitBackGroundOperate(L2CACHEC->REG1_AUX_CONTROL, (uint32_t)&L2CACHEC->REG7_INV_WAY);
/* Cache sync. */
L2CACHEC->REG7_CACHE_SYNC = 0;
}
/*!
* brief Cleans the level 2 cache controller.
* This function cleans all entries in the level 2 cache controller.
*
*/
void L2CACHE_Clean(void)
{
/* Clean all entries of the cache. */
L2CACHE_SetAndWaitBackGroundOperate(L2CACHEC->REG1_AUX_CONTROL, (uint32_t)&L2CACHEC->REG7_CLEAN_WAY);
/* Cache sync. */
L2CACHEC->REG7_CACHE_SYNC = 0;
}
/*!
* brief Cleans and invalidates the level 2 cache controller.
* This function cleans and invalidates all entries in the level 2 cache controller.
*
*/
void L2CACHE_CleanInvalidate(void)
{
/* Clean all entries of the cache. */
L2CACHE_SetAndWaitBackGroundOperate(L2CACHEC->REG1_AUX_CONTROL, (uint32_t)&L2CACHEC->REG7_CLEAN_INV_WAY);
/* Cache sync. */
L2CACHEC->REG7_CACHE_SYNC = 0;
}
/*!
* brief Invalidates the Level 2 cache lines in the range of two physical addresses.
* This function invalidates all cache lines between two physical addresses.
*
* param address The start address of the memory to be invalidated.
* param size_byte The memory size.
* note The start address and size_byte should be 32-byte(FSL_FEATURE_L2CACHE_LINESIZE_BYTE) aligned.
* The startAddr here will be forced to align to L2 line size if startAddr
* is not aligned. For the size_byte, application should make sure the
* alignment or make sure the right operation order if the size_byte is not aligned.
*/
void L2CACHE_InvalidateByRange(uint32_t address, uint32_t size_byte)
{
uint32_t endAddr = address + size_byte;
/* Invalidate addresses in the range. */
while (address < endAddr)
{
address = L2CACHE_InvalidateLineByAddr(address);
/* Update the size. */
address += FSL_FEATURE_L2CACHE_LINESIZE_BYTE;
}
/* Cache sync. */
L2CACHEC->REG7_CACHE_SYNC = 0;
}
/*!
* brief Cleans the Level 2 cache lines in the range of two physical addresses.
* This function cleans all cache lines between two physical addresses.
*
* param address The start address of the memory to be cleaned.
* param size_byte The memory size.
* note The start address and size_byte should be 32-byte(FSL_FEATURE_L2CACHE_LINESIZE_BYTE) aligned.
* The startAddr here will be forced to align to L2 line size if startAddr
* is not aligned. For the size_byte, application should make sure the
* alignment or make sure the right operation order if the size_byte is not aligned.
*/
void L2CACHE_CleanByRange(uint32_t address, uint32_t size_byte)
{
uint32_t num_ways = 0;
uint32_t size_way = 0;
uint32_t endAddr = address + size_byte;
/* Get the number and size of the cache way. */
L2CACHE_GetWayNumSize(&num_ways, &size_way);
/* Check if the clean size is over the cache size. */
if ((endAddr - address) > num_ways * size_way)
{
L2CACHE_Clean();
return;
}
/* Clean addresses in the range. */
while ((address & ~(uint32_t)(FSL_FEATURE_L2CACHE_LINESIZE_BYTE - 1)) < endAddr)
{
/* Clean the address in the range. */
address = L2CACHE_CleanLineByAddr(address);
address += FSL_FEATURE_L2CACHE_LINESIZE_BYTE;
}
L2CACHEC->REG7_CACHE_SYNC = 0;
}
/*!
* brief Cleans and invalidates the Level 2 cache lines in the range of two physical addresses.
* This function cleans and invalidates all cache lines between two physical addresses.
*
* param address The start address of the memory to be cleaned and invalidated.
* param size_byte The memory size.
* note The start address and size_byte should be 32-byte(FSL_FEATURE_L2CACHE_LINESIZE_BYTE) aligned.
* The startAddr here will be forced to align to L2 line size if startAddr
* is not aligned. For the size_byte, application should make sure the
* alignment or make sure the right operation order if the size_byte is not aligned.
*/
void L2CACHE_CleanInvalidateByRange(uint32_t address, uint32_t size_byte)
{
uint32_t num_ways = 0;
uint32_t size_way = 0;
uint32_t endAddr = address + size_byte;
/* Get the number and size of the cache way. */
L2CACHE_GetWayNumSize(&num_ways, &size_way);
/* Check if the clean size is over the cache size. */
if ((endAddr - address) > num_ways * size_way)
{
L2CACHE_CleanInvalidate();
return;
}
/* Clean addresses in the range. */
while ((address & ~(uint32_t)(FSL_FEATURE_L2CACHE_LINESIZE_BYTE - 1)) < endAddr)
{
/* Clean the address in the range. */
address = L2CACHE_CleanInvalidateLineByAddr(address);
address += FSL_FEATURE_L2CACHE_LINESIZE_BYTE;
}
L2CACHEC->REG7_CACHE_SYNC = 0;
}
/*!
* brief Enables or disables to lock down the data and instruction by way.
* This function locks down the cached instruction/data by way and prevent the adresses from
* being allocated and prevent dara from being evicted out of the level 2 cache.
* But the normal cache maintenance operations that invalidate, clean or clean
* and validate cache contents affect the locked-down cache lines as normal.
*
* param masterId The master id, range from 0 ~ 7.
* param mask The ways to be enabled or disabled to lockdown.
* each bit in value is related to each way of the cache. for example:
* value: bit 0 ------ way 0.
* value: bit 1 ------ way 1.
* --------------------------
* value: bit 15 ------ way 15.
* Note: please make sure the value setting is align with your supported ways.
* param enable True enable the lockdown, false to disable the lockdown.
*/
void L2CACHE_LockdownByWayEnable(uint32_t masterId, uint32_t mask, bool enable)
{
uint8_t num_ways = (L2CACHEC->REG1_AUX_CONTROL & L2CACHEC_REG1_AUX_CONTROL_ASSOCIATIVITY_MASK) >>
L2CACHEC_REG1_AUX_CONTROL_ASSOCIATIVITY_SHIFT;
num_ways = (num_ways + 1) * L2CACHE_SMALLWAYS_NUM;
assert(mask < (1U << num_ways));
assert(masterId < L2CACHE_LOCKDOWN_REGNUM);
uint32_t dataReg = L2CACHEC->LOCKDOWN[masterId].REG9_D_LOCKDOWN;
uint32_t istrReg = L2CACHEC->LOCKDOWN[masterId].REG9_I_LOCKDOWN;
if (enable)
{
/* Data lockdown. */
L2CACHEC->LOCKDOWN[masterId].REG9_D_LOCKDOWN = dataReg | mask;
/* Instruction lockdown. */
L2CACHEC->LOCKDOWN[masterId].REG9_I_LOCKDOWN = istrReg | mask;
}
else
{
/* Data lockdown. */
L2CACHEC->LOCKDOWN[masterId].REG9_D_LOCKDOWN = dataReg & ~mask;
/* Instruction lockdown. */
L2CACHEC->LOCKDOWN[masterId].REG9_I_LOCKDOWN = istrReg & ~mask;
}
}
#endif /* FSL_FEATURE_SOC_L2CACHEC_COUNT */
/*!
* brief Invalidate cortex-m7 L1 instruction cache by range.
*
* param address The start address of the memory to be invalidated.
* param size_byte The memory size.
* note The start address and size_byte should be 32-byte(FSL_FEATURE_L1ICACHE_LINESIZE_BYTE) aligned.
* The startAddr here will be forced to align to L1 I-cache line size if
* startAddr is not aligned. For the size_byte, application should make sure the
* alignment or make sure the right operation order if the size_byte is not aligned.
*/
void L1CACHE_InvalidateICacheByRange(uint32_t address, uint32_t size_byte)
{
#if (__DCACHE_PRESENT == 1U)
uint32_t addr = address & (uint32_t) ~(FSL_FEATURE_L1ICACHE_LINESIZE_BYTE - 1);
int32_t size = size_byte + address - addr;
uint32_t linesize = 32U;
__DSB();
while (size > 0)
{
SCB->ICIMVAU = addr;
addr += linesize;
size -= linesize;
}
__DSB();
__ISB();
#endif
}
/*!
* brief Invalidates all instruction caches by range.
*
* Both cortex-m7 L1 cache line and L2 PL310 cache line length is 32-byte.
*
* param address The physical address.
* param size_byte size of the memory to be invalidated.
* note address and size should be aligned to cache line size
* 32-Byte due to the cache operation unit is one cache line. The startAddr here will be forced
* to align to the cache line size if startAddr is not aligned. For the size_byte, application should
* make sure the alignment or make sure the right operation order if the size_byte is not aligned.
*/
void ICACHE_InvalidateByRange(uint32_t address, uint32_t size_byte)
{
#if defined(FSL_FEATURE_SOC_L2CACHEC_COUNT) && FSL_FEATURE_SOC_L2CACHEC_COUNT
#if defined(FSL_SDK_DISBLE_L2CACHE_PRESENT) && !FSL_SDK_DISBLE_L2CACHE_PRESENT
L2CACHE_InvalidateByRange(address, size_byte);
#endif /* !FSL_SDK_DISBLE_L2CACHE_PRESENT */
#endif /* FSL_FEATURE_SOC_L2CACHEC_COUNT */
L1CACHE_InvalidateICacheByRange(address, size_byte);
}
/*!
* brief Invalidates all data caches by range.
*
* Both cortex-m7 L1 cache line and L2 PL310 cache line length is 32-byte.
*
* param address The physical address.
* param size_byte size of the memory to be invalidated.
* note address and size should be aligned to cache line size
* 32-Byte due to the cache operation unit is one cache line. The startAddr here will be forced
* to align to the cache line size if startAddr is not aligned. For the size_byte, application should
* make sure the alignment or make sure the right operation order if the size_byte is not aligned.
*/
void DCACHE_InvalidateByRange(uint32_t address, uint32_t size_byte)
{
#if defined(FSL_FEATURE_SOC_L2CACHEC_COUNT) && FSL_FEATURE_SOC_L2CACHEC_COUNT
#if defined(FSL_SDK_DISBLE_L2CACHE_PRESENT) && !FSL_SDK_DISBLE_L2CACHE_PRESENT
L2CACHE_InvalidateByRange(address, size_byte);
#endif /* !FSL_SDK_DISBLE_L2CACHE_PRESENT */
#endif /* FSL_FEATURE_SOC_L2CACHEC_COUNT */
L1CACHE_InvalidateDCacheByRange(address, size_byte);
}
/*!
* brief Cleans all data caches by range.
*
* Both cortex-m7 L1 cache line and L2 PL310 cache line length is 32-byte.
*
* param address The physical address.
* param size_byte size of the memory to be cleaned.
* note address and size should be aligned to cache line size
* 32-Byte due to the cache operation unit is one cache line. The startAddr here will be forced
* to align to the cache line size if startAddr is not aligned. For the size_byte, application should
* make sure the alignment or make sure the right operation order if the size_byte is not aligned.
*/
void DCACHE_CleanByRange(uint32_t address, uint32_t size_byte)
{
L1CACHE_CleanDCacheByRange(address, size_byte);
#if defined(FSL_FEATURE_SOC_L2CACHEC_COUNT) && FSL_FEATURE_SOC_L2CACHEC_COUNT
#if defined(FSL_SDK_DISBLE_L2CACHE_PRESENT) && !FSL_SDK_DISBLE_L2CACHE_PRESENT
L2CACHE_CleanByRange(address, size_byte);
#endif /* !FSL_SDK_DISBLE_L2CACHE_PRESENT */
#endif /* FSL_FEATURE_SOC_L2CACHEC_COUNT */
}
/*!
* brief Cleans and Invalidates all data caches by range.
*
* Both cortex-m7 L1 cache line and L2 PL310 cache line length is 32-byte.
*
* param address The physical address.
* param size_byte size of the memory to be cleaned and invalidated.
* note address and size should be aligned to cache line size
* 32-Byte due to the cache operation unit is one cache line. The startAddr here will be forced
* to align to the cache line size if startAddr is not aligned. For the size_byte, application should
* make sure the alignment or make sure the right operation order if the size_byte is not aligned.
*/
void DCACHE_CleanInvalidateByRange(uint32_t address, uint32_t size_byte)
{
L1CACHE_CleanInvalidateDCacheByRange(address, size_byte);
#if defined(FSL_FEATURE_SOC_L2CACHEC_COUNT) && FSL_FEATURE_SOC_L2CACHEC_COUNT
#if defined(FSL_SDK_DISBLE_L2CACHE_PRESENT) && !FSL_SDK_DISBLE_L2CACHE_PRESENT
L2CACHE_CleanInvalidateByRange(address, size_byte);
#endif /* !FSL_SDK_DISBLE_L2CACHE_PRESENT */
#endif /* FSL_FEATURE_SOC_L2CACHEC_COUNT */
}