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

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/*
* Copyright 2017 NXP
* All rights reserved.
*
*
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* SPDX-License-Identifier: BSD-3-Clause
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*/
#include "fsl_flexram.h"
/*******************************************************************************
* Definitions
******************************************************************************/
/* Component ID definition, used by tools. */
#ifndef FSL_COMPONENT_ID
#define FSL_COMPONENT_ID "platform.drivers.flexram"
#endif
/*******************************************************************************
* Prototypes
******************************************************************************/
/*!
* @brief Gets the instance from the base address to be used to gate or ungate the module clock
*
* @param base FLEXRAM base address
*
* @return The FLEXRAM instance
*/
static uint32_t FLEXRAM_GetInstance(FLEXRAM_Type *base);
/*!
* @brief FLEXRAM map TCM size to register value
*
* @param tcmBankNum tcm banknumber
* @retval register value correspond to the tcm size
*/
static uint8_t FLEXRAM_MapTcmSizeToRegister(uint8_t tcmBankNum);
/*******************************************************************************
* Variables
******************************************************************************/
/*! @brief Pointers to FLEXRAM bases for each instance. */
static FLEXRAM_Type *const s_flexramBases[] = FLEXRAM_BASE_PTRS;
#if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL)
/*! @brief Pointers to FLEXRAM clocks for each instance. */
static const clock_ip_name_t s_flexramClocks[] = FLEXRAM_CLOCKS;
#endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */
/*******************************************************************************
* Code
******************************************************************************/
static uint32_t FLEXRAM_GetInstance(FLEXRAM_Type *base)
{
uint32_t instance;
/* Find the instance index from base address mappings. */
for (instance = 0; instance < ARRAY_SIZE(s_flexramBases); instance++)
{
if (s_flexramBases[instance] == base)
{
break;
}
}
assert(instance < ARRAY_SIZE(s_flexramBases));
return instance;
}
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/*!
* brief FLEXRAM module initialization function.
*
* param base FLEXRAM base address.
*/
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void FLEXRAM_Init(FLEXRAM_Type *base)
{
#if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL)
/* Ungate ENET clock. */
CLOCK_EnableClock(s_flexramClocks[FLEXRAM_GetInstance(base)]);
#endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */
/* enable all the interrupt status */
base->INT_STAT_EN |= kFLEXRAM_InterruptStatusAll;
/* clear all the interrupt status */
base->INT_STATUS |= kFLEXRAM_InterruptStatusAll;
/* disable all the interrpt */
base->INT_SIG_EN = 0U;
}
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/*!
* brief Deinitializes the FLEXRAM.
*
*/
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void FLEXRAN_Deinit(FLEXRAM_Type *base)
{
#if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL)
/* Ungate ENET clock. */
CLOCK_DisableClock(s_flexramClocks[FLEXRAM_GetInstance(base)]);
#endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */
}
static uint8_t FLEXRAM_MapTcmSizeToRegister(uint8_t tcmBankNum)
{
uint8_t tcmSizeConfig = 0U;
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uint32_t totalTcmSize = 0U;
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/* if bank number is a odd value, use a new bank number which bigger than target */
do
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{
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if ((tcmBankNum & (tcmBankNum - 1U)) == 0U)
{
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break;
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}
} while (++tcmBankNum < FSL_FEATURE_FLEXRAM_INTERNAL_RAM_TOTAL_BANK_NUMBERS);
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totalTcmSize = tcmBankNum * (FSL_FEATURE_FLEXRAM_INTERNAL_RAM_BANK_SIZE >> 10U);
/* get bit '1' position */
while (totalTcmSize)
{
if ((totalTcmSize & 1U) == 0U)
{
tcmSizeConfig++;
}
else
{
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break;
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}
totalTcmSize >>= 1U;
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}
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return tcmSizeConfig + 1U;
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}
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void FLEXRAM_SetTCMSize(uint8_t itcmBankNum, uint8_t dtcmBankNum)
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{
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assert(itcmBankNum <= FSL_FEATURE_FLEXRAM_INTERNAL_RAM_TOTAL_BANK_NUMBERS);
assert(dtcmBankNum <= FSL_FEATURE_FLEXRAM_INTERNAL_RAM_TOTAL_BANK_NUMBERS);
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/* dtcm configuration */
if (dtcmBankNum != 0U)
{
IOMUXC_GPR->GPR14 &= ~IOMUXC_GPR_GPR14_CM7_CFGDTCMSZ_MASK;
IOMUXC_GPR->GPR14 |= IOMUXC_GPR_GPR14_CM7_CFGDTCMSZ(FLEXRAM_MapTcmSizeToRegister(dtcmBankNum));
IOMUXC_GPR->GPR16 |= IOMUXC_GPR_GPR16_INIT_DTCM_EN_MASK;
}
else
{
IOMUXC_GPR->GPR16 &= ~IOMUXC_GPR_GPR16_INIT_DTCM_EN_MASK;
}
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/* itcm configuration */
if (itcmBankNum != 0U)
{
IOMUXC_GPR->GPR14 &= ~IOMUXC_GPR_GPR14_CM7_CFGITCMSZ_MASK;
IOMUXC_GPR->GPR14 |= IOMUXC_GPR_GPR14_CM7_CFGITCMSZ(FLEXRAM_MapTcmSizeToRegister(itcmBankNum));
IOMUXC_GPR->GPR16 |= IOMUXC_GPR_GPR16_INIT_ITCM_EN_MASK;
}
else
{
IOMUXC_GPR->GPR16 &= ~IOMUXC_GPR_GPR16_INIT_ITCM_EN_MASK;
}
}
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/*!
* brief FLEXRAM allocate on-chip ram for OCRAM,ITCM,DTCM
* This function is independent of FLEXRAM_Init, it can be called directly if ram re-allocate
* is needed.
* param config allocate configuration.
* retval kStatus_InvalidArgument the argument is invalid
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* kStatus_Success allocate success
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*/
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status_t FLEXRAM_AllocateRam(flexram_allocate_ram_t *config)
{
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assert(config != NULL);
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uint8_t dtcmBankNum = config->dtcmBankNum;
uint8_t itcmBankNum = config->itcmBankNum;
uint8_t ocramBankNum = config->ocramBankNum;
uint32_t bankCfg = 0U, i = 0U;
/* check the arguments */
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if (FSL_FEATURE_FLEXRAM_INTERNAL_RAM_TOTAL_BANK_NUMBERS < (dtcmBankNum + itcmBankNum + ocramBankNum))
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{
return kStatus_InvalidArgument;
}
/* flexram bank config value */
for (i = 0U; i < FSL_FEATURE_FLEXRAM_INTERNAL_RAM_TOTAL_BANK_NUMBERS; i++)
{
if (i < ocramBankNum)
{
bankCfg |= ((uint32_t)kFLEXRAM_BankOCRAM) << (i * 2);
continue;
}
if (i < (dtcmBankNum + ocramBankNum))
{
bankCfg |= ((uint32_t)kFLEXRAM_BankDTCM) << (i * 2);
continue;
}
if (i < (dtcmBankNum + ocramBankNum + itcmBankNum))
{
bankCfg |= ((uint32_t)kFLEXRAM_BankITCM) << (i * 2);
continue;
}
}
IOMUXC_GPR->GPR17 = bankCfg;
/* set TCM size */
FLEXRAM_SetTCMSize(itcmBankNum, dtcmBankNum);
/* select ram allocate source from FLEXRAM_BANK_CFG */
FLEXRAM_SetAllocateRamSrc(kFLEXRAM_BankAllocateThroughBankCfg);
return kStatus_Success;
}