/* * Copyright (c) 2016, Freescale Semiconductor, Inc. * Copyright 2016-2017 NXP * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * o Redistributions of source code must retain the above copyright notice, this list * of conditions and the following disclaimer. * * o Redistributions in binary form must reproduce the above copyright notice, this * list of conditions and the following disclaimer in the documentation and/or * other materials provided with the distribution. * * o Neither the name of the copyright holder nor the names of its * contributors may be used to endorse or promote products derived from this * software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "fsl_cache.h" /******************************************************************************* * Definitions ******************************************************************************/ #if (FSL_FEATURE_SOC_L2CACHEC_COUNT > 0) #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 ((*(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; } 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; } } void L2CACHE_GetDefaultConfig(l2cache_config_t *config) { assert(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; } void L2CACHE_Enable(void) { /* Invalidate first. */ L2CACHE_Invalidate(); /* Enable the level 2 cache controller. */ L2CACHEC->REG1_CONTROL = L2CACHEC_REG1_CONTROL_CE_MASK; } 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(); } 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; } 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; } 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; } 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; } 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; } 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; } 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 > 0 */ 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 } void ICACHE_InvalidateByRange(uint32_t address, uint32_t size_byte) { #if (FSL_FEATURE_SOC_L2CACHEC_COUNT > 0) #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 > 0 */ L1CACHE_InvalidateICacheByRange(address, size_byte); } void DCACHE_InvalidateByRange(uint32_t address, uint32_t size_byte) { #if (FSL_FEATURE_SOC_L2CACHEC_COUNT > 0) #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 > 0 */ L1CACHE_InvalidateDCacheByRange(address, size_byte); } void DCACHE_CleanByRange(uint32_t address, uint32_t size_byte) { L1CACHE_CleanDCacheByRange(address, size_byte); #if (FSL_FEATURE_SOC_L2CACHEC_COUNT > 0) #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 > 0 */ } void DCACHE_CleanInvalidateByRange(uint32_t address, uint32_t size_byte) { L1CACHE_CleanInvalidateDCacheByRange(address, size_byte); #if (FSL_FEATURE_SOC_L2CACHEC_COUNT > 0) #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 > 0 */ }