rt-thread-official/bsp/gd32303e-eval/Libraries/GD32F30x_standard_peripheral/Source/gd32f30x_exmc.c

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2018-05-21 11:13:46 +08:00
/*!
\file gd32f30x_exmc.c
\brief EXMC driver
*/
/*
Copyright (C) 2017 GigaDevice
2017-02-10, V1.0.1, firmware for GD32F30x
*/
#include "gd32f30x_exmc.h"
/* EXMC bank0 register reset value */
#define BANK0_SNCTL_REGION0_RESET ((uint32_t)0x000030DBU)
#define BANK0_SNCTL_REGION1_2_3_RESET ((uint32_t)0x000030D2U)
#define BANK0_SNTCFG_RESET ((uint32_t)0x0FFFFFFFU)
#define BANK0_SNWTCFG_RESET ((uint32_t)0x0FFFFFFFU)
/* EXMC bank1/2 register reset mask*/
#define BANK1_2_NPCTL_RESET ((uint32_t)0x00000018U)
#define BANK1_2_NPINTEN_RESET ((uint32_t)0x00000040U)
#define BANK1_2_NPCTCFG_RESET ((uint32_t)0xFCFCFCFCU)
#define BANK1_2_NPATCFG_RESET ((uint32_t)0xFCFCFCFCU)
/* EXMC bank3 register reset mask*/
#define BANK3_NPCTL_RESET ((uint32_t)0x00000018U)
#define BANK3_NPINTEN_RESET ((uint32_t)0x00000040U)
#define BANK3_NPCTCFG_RESET ((uint32_t)0xFCFCFCFCU)
#define BANK3_NPATCFG_RESET ((uint32_t)0xFCFCFCFCU)
#define BANK3_PIOTCFG3_RESET ((uint32_t)0xFCFCFCFCU)
/* EXMC register bit offset */
#define SNCTL_NRMUX_OFFSET ((uint32_t)1U)
#define SNCTL_SBRSTEN_OFFSET ((uint32_t)8U)
#define SNCTL_WRAPEN_OFFSET ((uint32_t)10U)
#define SNCTL_WREN_OFFSET ((uint32_t)12U)
#define SNCTL_NRWTEN_OFFSET ((uint32_t)13U)
#define SNCTL_EXMODEN_OFFSET ((uint32_t)14U)
#define SNCTL_ASYNCWAIT_OFFSET ((uint32_t)15U)
#define SNTCFG_AHLD_OFFSET ((uint32_t)4U)
#define SNTCFG_DSET_OFFSET ((uint32_t)8U)
#define SNTCFG_BUSLAT_OFFSET ((uint32_t)16U)
#define SNWTCFG_WAHLD_OFFSET ((uint32_t)4U)
#define SNWTCFG_WDSET_OFFSET ((uint32_t)8U)
#define SNWTCFG_WBUSLAT_OFFSET ((uint32_t)16U)
#define NPCTL_NDWTEN_OFFSET ((uint32_t)1U)
#define NPCTL_ECCEN_OFFSET ((uint32_t)6U)
#define NPCTCFG_COMWAIT_OFFSET ((uint32_t)8U)
#define NPCTCFG_COMHLD_OFFSET ((uint32_t)16U)
#define NPCTCFG_COMHIZ_OFFSET ((uint32_t)24U)
#define NPATCFG_ATTWAIT_OFFSET ((uint32_t)8U)
#define NPATCFG_ATTHLD_OFFSET ((uint32_t)16U)
#define NPATCFG_ATTHIZ_OFFSET ((uint32_t)24U)
#define PIOTCFG_IOWAIT_OFFSET ((uint32_t)8U)
#define PIOTCFG_IOHLD_OFFSET ((uint32_t)16U)
#define PIOTCFG_IOHIZ_OFFSET ((uint32_t)24U)
#define INTEN_INTS_OFFSET ((uint32_t)3U)
/*!
\brief deinitialize EXMC NOR/SRAM region
\param[in] exmc_norsram_region: select the region of bank0
\arg EXMC_BANK0_NORSRAM_REGIONx(x=0..3)
\param[out] none
\retval none
*/
void exmc_norsram_deinit(uint32_t exmc_norsram_region)
{
/* reset the registers */
if(EXMC_BANK0_NORSRAM_REGION0 == exmc_norsram_region){
EXMC_SNCTL(exmc_norsram_region) = BANK0_SNCTL_REGION0_RESET;
}else{
EXMC_SNCTL(exmc_norsram_region) = BANK0_SNCTL_REGION1_2_3_RESET;
}
EXMC_SNTCFG(exmc_norsram_region) = BANK0_SNTCFG_RESET;
EXMC_SNWTCFG(exmc_norsram_region) = BANK0_SNWTCFG_RESET;
}
/*!
\brief initialize EXMC NOR/SRAM region
\param[in] exmc_norsram_parameter_struct: configure the EXMC NOR/SRAM parameter
norsram_region: EXMC_BANK0_NORSRAM_REGIONx,x=0..3
write_mode: EXMC_ASYN_WRITE,EXMC_SYN_WRITE
extended_mode: ENABLE or DISABLE
asyn_wait: ENABLE or DISABLE
nwait_signal: ENABLE or DISABLE
memory_write: ENABLE or DISABLE
nwait_config: EXMC_NWAIT_CONFIG_BEFORE,EXMC_NWAIT_CONFIG_DURING
wrap_burst_mode: ENABLE or DISABLE
nwait_polarity: EXMC_NWAIT_POLARITY_LOW,EXMC_NWAIT_POLARITY_HIGH
burst_mode: ENABLE or DISABLE
databus_width: EXMC_NOR_DATABUS_WIDTH_8B,EXMC_NOR_DATABUS_WIDTH_16B
memory_type: EXMC_MEMORY_TYPE_SRAM,EXMC_MEMORY_TYPE_PSRAM,EXMC_MEMORY_TYPE_NOR
address_data_mux: ENABLE or DISABLE
read_write_timing: struct exmc_norsram_timing_parameter_struct set the time
write_timing: struct exmc_norsram_timing_parameter_struct set the time
\param[out] none
\retval none
*/
void exmc_norsram_init(exmc_norsram_parameter_struct* exmc_norsram_init_struct)
{
uint32_t snctl = 0x00000000U,sntcfg = 0x00000000U,snwtcfg = 0x00000000U;
/* get the register value */
snctl = EXMC_SNCTL(exmc_norsram_init_struct->norsram_region);
/* clear relative bits */
snctl &= ((uint32_t)~(EXMC_SNCTL_NRMUX | EXMC_SNCTL_NRTP | EXMC_SNCTL_NRW | EXMC_SNCTL_SBRSTEN |
EXMC_SNCTL_NREN | EXMC_SNCTL_NRWTPOL | EXMC_SNCTL_WRAPEN | EXMC_SNCTL_NRWTCFG |
EXMC_SNCTL_WREN | EXMC_SNCTL_NRWTEN | EXMC_SNCTL_EXMODEN | EXMC_SNCTL_ASYNCWAIT |
EXMC_SNCTL_SYNCWR ));
snctl |= (uint32_t)(exmc_norsram_init_struct->address_data_mux << SNCTL_NRMUX_OFFSET) |
exmc_norsram_init_struct->memory_type |
exmc_norsram_init_struct->databus_width |
(exmc_norsram_init_struct->burst_mode << SNCTL_SBRSTEN_OFFSET) |
exmc_norsram_init_struct->nwait_polarity |
(exmc_norsram_init_struct->wrap_burst_mode << SNCTL_WRAPEN_OFFSET) |
exmc_norsram_init_struct->nwait_config |
(exmc_norsram_init_struct->memory_write << SNCTL_WREN_OFFSET) |
(exmc_norsram_init_struct->nwait_signal << SNCTL_NRWTEN_OFFSET) |
(exmc_norsram_init_struct->extended_mode << SNCTL_EXMODEN_OFFSET) |
(exmc_norsram_init_struct->asyn_wait << SNCTL_ASYNCWAIT_OFFSET) |
exmc_norsram_init_struct->write_mode;
sntcfg = (uint32_t)((exmc_norsram_init_struct->read_write_timing->asyn_address_setuptime - 1U ) & EXMC_SNTCFG_ASET )|
(((exmc_norsram_init_struct->read_write_timing->asyn_address_holdtime - 1U ) << SNTCFG_AHLD_OFFSET ) & EXMC_SNTCFG_AHLD ) |
(((exmc_norsram_init_struct->read_write_timing->asyn_data_setuptime - 1U ) << SNTCFG_DSET_OFFSET ) & EXMC_SNTCFG_DSET ) |
(((exmc_norsram_init_struct->read_write_timing->bus_latency - 1U ) << SNTCFG_BUSLAT_OFFSET ) & EXMC_SNTCFG_BUSLAT )|
exmc_norsram_init_struct->read_write_timing->syn_clk_division |
exmc_norsram_init_struct->read_write_timing->syn_data_latency |
exmc_norsram_init_struct->read_write_timing->asyn_access_mode;
/* nor flash access enable */
if(EXMC_MEMORY_TYPE_NOR == exmc_norsram_init_struct->memory_type){
snctl |= (uint32_t)EXMC_SNCTL_NREN;
}
/* extended mode configure */
if(ENABLE == exmc_norsram_init_struct->extended_mode){
snwtcfg = (uint32_t)((exmc_norsram_init_struct->write_timing->asyn_address_setuptime - 1U) & EXMC_SNWTCFG_WASET ) |
(((exmc_norsram_init_struct->write_timing->asyn_address_holdtime -1U ) << SNWTCFG_WAHLD_OFFSET ) & EXMC_SNWTCFG_WAHLD )|
(((exmc_norsram_init_struct->write_timing->asyn_data_setuptime -1U ) << SNWTCFG_WDSET_OFFSET ) & EXMC_SNWTCFG_WDSET )|
(((exmc_norsram_init_struct->write_timing->bus_latency - 1U ) << SNWTCFG_WBUSLAT_OFFSET ) & EXMC_SNWTCFG_WBUSLAT ) |
exmc_norsram_init_struct->write_timing->asyn_access_mode;
}else{
snwtcfg = BANK0_SNWTCFG_RESET;
}
/* configure the registers */
EXMC_SNCTL(exmc_norsram_init_struct->norsram_region) = snctl;
EXMC_SNTCFG(exmc_norsram_init_struct->norsram_region) = sntcfg;
EXMC_SNWTCFG(exmc_norsram_init_struct->norsram_region) = snwtcfg;
}
/*!
\brief initialize the struct exmc_norsram_parameter_struct
\param[in] none
\param[out] exmc_norsram_init_struct: the initialized struct exmc_norsram_parameter_struct pointer
\retval none
*/
void exmc_norsram_parameter_init(exmc_norsram_parameter_struct* exmc_norsram_init_struct)
{
/* configure the structure with default value */
exmc_norsram_init_struct->norsram_region = EXMC_BANK0_NORSRAM_REGION0;
exmc_norsram_init_struct->address_data_mux = ENABLE;
exmc_norsram_init_struct->memory_type = EXMC_MEMORY_TYPE_SRAM;
exmc_norsram_init_struct->databus_width = EXMC_NOR_DATABUS_WIDTH_8B;
exmc_norsram_init_struct->burst_mode = DISABLE;
exmc_norsram_init_struct->nwait_polarity = EXMC_NWAIT_POLARITY_LOW;
exmc_norsram_init_struct->wrap_burst_mode = DISABLE;
exmc_norsram_init_struct->nwait_config = EXMC_NWAIT_CONFIG_BEFORE;
exmc_norsram_init_struct->memory_write = ENABLE;
exmc_norsram_init_struct->nwait_signal = ENABLE;
exmc_norsram_init_struct->extended_mode = DISABLE;
exmc_norsram_init_struct->asyn_wait = DISABLE;
exmc_norsram_init_struct->write_mode = EXMC_ASYN_WRITE;
/* read/write timing configure */
exmc_norsram_init_struct->read_write_timing->asyn_address_setuptime = 0xFU;
exmc_norsram_init_struct->read_write_timing->asyn_address_holdtime = 0xFU;
exmc_norsram_init_struct->read_write_timing->asyn_data_setuptime = 0xFFU;
exmc_norsram_init_struct->read_write_timing->bus_latency = 0xFU;
exmc_norsram_init_struct->read_write_timing->syn_clk_division = EXMC_SYN_CLOCK_RATIO_16_CLK;
exmc_norsram_init_struct->read_write_timing->syn_data_latency = EXMC_DATALAT_17_CLK;
exmc_norsram_init_struct->read_write_timing->asyn_access_mode = EXMC_ACCESS_MODE_A;
/* write timing configure, when extended mode is used */
exmc_norsram_init_struct->write_timing->asyn_address_setuptime = 0xFU;
exmc_norsram_init_struct->write_timing->asyn_address_holdtime = 0xFU;
exmc_norsram_init_struct->write_timing->asyn_data_setuptime = 0xFFU;
exmc_norsram_init_struct->write_timing->bus_latency = 0xFU;
exmc_norsram_init_struct->write_timing->asyn_access_mode = EXMC_ACCESS_MODE_A;
}
/*!
\brief CRAM page size configure
\param[in] exmc_norsram_region: specifie the region of NOR/PSRAM bank
\arg EXMC_BANK0_NORSRAM_REGIONx(x=0..3)
\param[in] page_size: CRAM page size
\arg EXMC_CRAM_AUTO_SPLIT: the clock is generated only during synchronous access
\arg EXMC_CRAM_PAGE_SIZE_128_BYTES: page size is 128 bytes
\arg EXMC_CRAM_PAGE_SIZE_256_BYTES: page size is 256 bytes
\arg EXMC_CRAM_PAGE_SIZE_512_BYTES: page size is 512 bytes
\arg EXMC_CRAM_PAGE_SIZE_1024_BYTES: page size is 1024 bytes
\param[out] none
\retval none
*/
void exmc_norsram_page_size_config(uint32_t exmc_norsram_region, uint32_t page_size)
{
/* reset the bits */
EXMC_SNCTL(exmc_norsram_region) &= ~EXMC_SNCTL_CPS;
/* set the CPS bits */
EXMC_SNCTL(exmc_norsram_region) |= page_size;
}
/*!
\brief enable EXMC NOR/PSRAM bank region
\param[in] exmc_norsram_region: specifie the region of NOR/PSRAM bank
\arg EXMC_BANK0_NORSRAM_REGIONx(x=0..3)
\param[out] none
\retval none
*/
void exmc_norsram_enable(uint32_t exmc_norsram_region)
{
EXMC_SNCTL(exmc_norsram_region) |= (uint32_t)EXMC_SNCTL_NRBKEN;
}
/*!
\brief disable EXMC NOR/PSRAM bank region
\param[in] exmc_norsram_region: specifie the region of NOR/PSRAM Bank
\arg EXMC_BANK0_NORSRAM_REGIONx(x=0..3)
\param[out] none
\retval none
*/
void exmc_norsram_disable(uint32_t exmc_norsram_region)
{
EXMC_SNCTL(exmc_norsram_region) &= ~(uint32_t)EXMC_SNCTL_NRBKEN;
}
/*!
\brief deinitialize EXMC NAND bank
\param[in] exmc_nand_bank: select the bank of NAND
\arg EXMC_BANKx_NAND(x=1..2)
\param[out] none
\retval none
*/
void exmc_nand_deinit(uint32_t exmc_nand_bank)
{
/* EXMC_BANK1_NAND or EXMC_BANK2_NAND */
EXMC_NPCTL(exmc_nand_bank) = BANK1_2_NPCTL_RESET;
EXMC_NPINTEN(exmc_nand_bank) = BANK1_2_NPINTEN_RESET;
EXMC_NPCTCFG(exmc_nand_bank) = BANK1_2_NPCTCFG_RESET;
EXMC_NPATCFG(exmc_nand_bank) = BANK1_2_NPATCFG_RESET;
}
/*!
\brief initialize EXMC NAND bank
\param[in] exmc_nand_parameter_struct: configure the EXMC NAND parameter
nand_bank: EXMC_BANK1_NAND,EXMC_BANK2_NAND
ecc_size: EXMC_ECC_SIZE_xBYTES,x=256,512,1024,2048,4096
atr_latency: EXMC_ALE_RE_DELAY_x_HCLK,x=1..16
ctr_latency: EXMC_CLE_RE_DELAY_x_HCLK,x=1..16
ecc_logic: ENABLE or DISABLE
databus_width: EXMC_NAND_DATABUS_WIDTH_8B,EXMC_NAND_DATABUS_WIDTH_16B
wait_feature: ENABLE or DISABLE
common_space_timing: struct exmc_nand_pccard_timing_parameter_struct set the time
attribute_space_timing: struct exmc_nand_pccard_timing_parameter_struct set the time
\param[out] none
\retval none
*/
void exmc_nand_init(exmc_nand_parameter_struct* exmc_nand_init_struct)
{
uint32_t npctl = 0x00000000U, npctcfg = 0x00000000U, npatcfg = 0x00000000U;
npctl = (uint32_t)(exmc_nand_init_struct->wait_feature << NPCTL_NDWTEN_OFFSET)|
EXMC_NPCTL_NDTP |
exmc_nand_init_struct->databus_width |
(exmc_nand_init_struct->ecc_logic << NPCTL_ECCEN_OFFSET)|
exmc_nand_init_struct->ecc_size |
exmc_nand_init_struct->ctr_latency |
exmc_nand_init_struct->atr_latency;
npctcfg = (uint32_t)((exmc_nand_init_struct->common_space_timing->setuptime - 1U) & EXMC_NPCTCFG_COMSET ) |
(((exmc_nand_init_struct->common_space_timing->waittime - 1U) << NPCTCFG_COMWAIT_OFFSET) & EXMC_NPCTCFG_COMWAIT ) |
((exmc_nand_init_struct->common_space_timing->holdtime << NPCTCFG_COMHLD_OFFSET) & EXMC_NPCTCFG_COMHLD ) |
(((exmc_nand_init_struct->common_space_timing->databus_hiztime - 1U) << NPCTCFG_COMHIZ_OFFSET) & EXMC_NPCTCFG_COMHIZ );
npatcfg = (uint32_t)((exmc_nand_init_struct->attribute_space_timing->setuptime - 1U) & EXMC_NPATCFG_ATTSET ) |
(((exmc_nand_init_struct->attribute_space_timing->waittime - 1U) << NPATCFG_ATTWAIT_OFFSET) & EXMC_NPATCFG_ATTWAIT ) |
((exmc_nand_init_struct->attribute_space_timing->holdtime << NPATCFG_ATTHLD_OFFSET) & EXMC_NPATCFG_ATTHLD ) |
(((exmc_nand_init_struct->attribute_space_timing->databus_hiztime -1U) << NPATCFG_ATTHIZ_OFFSET) & EXMC_NPATCFG_ATTHIZ );
/* EXMC_BANK1_NAND or EXMC_BANK2_NAND initialize */
EXMC_NPCTL(exmc_nand_init_struct->nand_bank) = npctl;
EXMC_NPCTCFG(exmc_nand_init_struct->nand_bank) = npctcfg;
EXMC_NPATCFG(exmc_nand_init_struct->nand_bank) = npatcfg;
}
/*!
\brief initialize the struct exmc_norsram_parameter_struct
\param[in] none
\param[out] the initialized struct exmc_norsram_parameter_struct pointer
\retval none
*/
void exmc_nand_parameter_init(exmc_nand_parameter_struct* exmc_nand_init_struct)
{
/* configure the structure with default value */
exmc_nand_init_struct->nand_bank = EXMC_BANK1_NAND;
exmc_nand_init_struct->wait_feature = DISABLE;
exmc_nand_init_struct->databus_width = EXMC_NAND_DATABUS_WIDTH_8B;
exmc_nand_init_struct->ecc_logic = DISABLE;
exmc_nand_init_struct->ecc_size = EXMC_ECC_SIZE_256BYTES;
exmc_nand_init_struct->ctr_latency = 0x0U;
exmc_nand_init_struct->atr_latency = 0x0U;
exmc_nand_init_struct->common_space_timing->setuptime = 0xfcU;
exmc_nand_init_struct->common_space_timing->waittime = 0xfcU;
exmc_nand_init_struct->common_space_timing->holdtime = 0xfcU;
exmc_nand_init_struct->common_space_timing->databus_hiztime = 0xfcU;
exmc_nand_init_struct->attribute_space_timing->setuptime = 0xfcU;
exmc_nand_init_struct->attribute_space_timing->waittime = 0xfcU;
exmc_nand_init_struct->attribute_space_timing->holdtime = 0xfcU;
exmc_nand_init_struct->attribute_space_timing->databus_hiztime = 0xfcU;
}
/*!
\brief enable NAND bank
\param[in] exmc_nand_bank: specifie the NAND bank
\arg EXMC_BANKx_NAND(x=1,2)
\param[out] none
\retval none
*/
void exmc_nand_enable(uint32_t exmc_nand_bank)
{
EXMC_NPCTL(exmc_nand_bank) |= EXMC_NPCTL_NDBKEN;
}
/*!
\brief disable NAND bank
\param[in] exmc_nand_bank: specifie the NAND bank
\arg EXMC_BANKx_NAND(x=1,2)
\param[out] none
\retval none
*/
void exmc_nand_disable(uint32_t exmc_nand_bank)
{
EXMC_NPCTL(exmc_nand_bank) &= (~EXMC_NPCTL_NDBKEN);
}
/*!
\brief enable or disable the EXMC NAND ECC function
\param[in] exmc_nand_bank: specifie the NAND bank
\arg EXMC_BANKx_NAND(x=1,2)
\param[in] newvalue: ENABLE or DISABLE
\param[out] none
\retval none
*/
void exmc_nand_ecc_config(uint32_t exmc_nand_bank, ControlStatus newvalue)
{
if (ENABLE == newvalue){
/* enable the selected NAND bank ECC function */
EXMC_NPCTL(exmc_nand_bank) |= EXMC_NPCTL_ECCEN;
}else{
/* disable the selected NAND bank ECC function */
EXMC_NPCTL(exmc_nand_bank) &= (~EXMC_NPCTL_ECCEN);
}
}
/*!
\brief get the EXMC ECC value
\param[in] exmc_nand_bank: specifie the NAND bank
\arg EXMC_BANKx_NAND(x=1,2)
\param[out] none
\retval the error correction code(ECC) value
*/
uint32_t exmc_ecc_get(uint32_t exmc_nand_bank)
{
return (EXMC_NECC(exmc_nand_bank));
}
/*!
\brief deinitialize EXMC PC card bank
\param[in] none
\param[out] none
\retval none
*/
void exmc_pccard_deinit(void)
{
/* EXMC_BANK3_PCCARD */
EXMC_NPCTL3 = BANK3_NPCTL_RESET;
EXMC_NPINTEN3 = BANK3_NPINTEN_RESET;
EXMC_NPCTCFG3 = BANK3_NPCTCFG_RESET;
EXMC_NPATCFG3 = BANK3_NPATCFG_RESET;
EXMC_PIOTCFG3 = BANK3_PIOTCFG3_RESET;
}
/*!
\brief initialize EXMC PC card bank
\param[in] exmc_pccard_parameter_struct: configure the EXMC NAND parameter
atr_latency: EXMC_ALE_RE_DELAY_x_HCLK,x=1..16
ctr_latency: EXMC_CLE_RE_DELAY_x_HCLK,x=1..16
wait_feature: ENABLE or DISABLE
common_space_timing: struct exmc_nand_pccard_timing_parameter_struct set the time
attribute_space_timing: struct exmc_nand_pccard_timing_parameter_struct set the time
io_space_timing: exmc_nand_pccard_timing_parameter_struct set the time
\param[out] none
\retval none
*/
void exmc_pccard_init(exmc_pccard_parameter_struct* exmc_pccard_init_struct)
{
/* configure the EXMC bank3 PC card control register */
EXMC_NPCTL3 = (uint32_t)(exmc_pccard_init_struct->wait_feature << NPCTL_NDWTEN_OFFSET) |
EXMC_NAND_DATABUS_WIDTH_16B |
exmc_pccard_init_struct->ctr_latency |
exmc_pccard_init_struct->atr_latency ;
/* configure the EXMC bank3 PC card common space timing configuration register */
EXMC_NPCTCFG3 = (uint32_t)((exmc_pccard_init_struct->common_space_timing->setuptime - 1U)& EXMC_NPCTCFG_COMSET ) |
(((exmc_pccard_init_struct->common_space_timing->waittime - 1U) << NPCTCFG_COMWAIT_OFFSET) & EXMC_NPCTCFG_COMWAIT ) |
((exmc_pccard_init_struct->common_space_timing->holdtime << NPCTCFG_COMHLD_OFFSET) & EXMC_NPCTCFG_COMHLD ) |
(((exmc_pccard_init_struct->common_space_timing->databus_hiztime - 1U) << NPCTCFG_COMHIZ_OFFSET) & EXMC_NPCTCFG_COMHIZ );
/* configure the EXMC bank3 PC card attribute space timing configuration register */
EXMC_NPATCFG3 = (uint32_t)((exmc_pccard_init_struct->attribute_space_timing->setuptime - 1U) & EXMC_NPATCFG_ATTSET ) |
(((exmc_pccard_init_struct->attribute_space_timing->waittime - 1U) << NPATCFG_ATTWAIT_OFFSET) & EXMC_NPATCFG_ATTWAIT ) |
((exmc_pccard_init_struct->attribute_space_timing->holdtime << NPATCFG_ATTHLD_OFFSET) & EXMC_NPATCFG_ATTHLD )|
(((exmc_pccard_init_struct->attribute_space_timing->databus_hiztime -1U) << NPATCFG_ATTHIZ_OFFSET) & EXMC_NPATCFG_ATTHIZ );
/* configure the EXMC bank3 PC card io space timing configuration register */
EXMC_PIOTCFG3 = (uint32_t)((exmc_pccard_init_struct->io_space_timing->setuptime - 1U) & EXMC_PIOTCFG3_IOSET ) |
(((exmc_pccard_init_struct->io_space_timing->waittime - 1U) << PIOTCFG_IOWAIT_OFFSET) & EXMC_PIOTCFG3_IOWAIT ) |
((exmc_pccard_init_struct->io_space_timing->holdtime << PIOTCFG_IOHLD_OFFSET) & EXMC_PIOTCFG3_IOHLD )|
((exmc_pccard_init_struct->io_space_timing->databus_hiztime << PIOTCFG_IOHIZ_OFFSET) & EXMC_PIOTCFG3_IOHIZ );
}
/*!
\brief initialize the struct exmc_pccard_parameter_struct
\param[in] none
\param[out] the initialized struct exmc_pccard_parameter_struct pointer
\retval none
*/
void exmc_pccard_parameter_init(exmc_pccard_parameter_struct* exmc_pccard_init_struct)
{
/* configure the structure with default value */
exmc_pccard_init_struct->wait_feature = DISABLE;
exmc_pccard_init_struct->ctr_latency = 0x0U;
exmc_pccard_init_struct->atr_latency = 0x0U;
exmc_pccard_init_struct->common_space_timing->setuptime = 0xFCU;
exmc_pccard_init_struct->common_space_timing->waittime = 0xFCU;
exmc_pccard_init_struct->common_space_timing->holdtime = 0xFCU;
exmc_pccard_init_struct->common_space_timing->databus_hiztime = 0xFCU;
exmc_pccard_init_struct->attribute_space_timing->setuptime = 0xFCU;
exmc_pccard_init_struct->attribute_space_timing->waittime = 0xFCU;
exmc_pccard_init_struct->attribute_space_timing->holdtime = 0xFCU;
exmc_pccard_init_struct->attribute_space_timing->databus_hiztime = 0xFCU;
exmc_pccard_init_struct->io_space_timing->setuptime = 0xFCU;
exmc_pccard_init_struct->io_space_timing->waittime = 0xFCU;
exmc_pccard_init_struct->io_space_timing->holdtime = 0xFCU;
exmc_pccard_init_struct->io_space_timing->databus_hiztime = 0xFCU;
}
/*!
\brief enable PC Card Bank
\param[in] none
\param[out] none
\retval none
*/
void exmc_pccard_enable(void)
{
EXMC_NPCTL3 |= EXMC_NPCTL_NDBKEN;
}
/*!
\brief disable PC Card Bank
\param[in] none
\param[out] none
\retval none
*/
void exmc_pccard_disable(void)
{
EXMC_NPCTL3 &= (~EXMC_NPCTL_NDBKEN);
}
/*!
\brief check EXMC flag is set or not
\param[in] exmc_bank: specifies the NAND bank , PC card bank
\arg EXMC_BANK1_NAND: the NAND bank1
\arg EXMC_BANK2_NAND: the NAND bank2
\arg EXMC_BANK3_PCCARD: the PC Card bank
\param[in] flag: specify get which flag
\arg EXMC_NAND_PCCARD_FLAG_RISE: interrupt rising edge status
\arg EXMC_NAND_PCCARD_FLAG_LEVEL: interrupt high-level status
\arg EXMC_NAND_PCCARD_FLAG_FALL: interrupt falling edge status
\arg EXMC_NAND_PCCARD_FLAG_FIFOE: FIFO empty flag
\param[out] none
\retval FlagStatus: SET or RESET
*/
FlagStatus exmc_flag_get(uint32_t exmc_bank,uint32_t flag)
{
uint32_t status = 0x00000000U;
/* NAND bank1,bank2 or PC card bank3 */
status = EXMC_NPINTEN(exmc_bank);
if ((status & flag) != (uint32_t)flag ){
/* flag is reset */
return RESET;
}else{
/* flag is set */
return SET;
}
}
/*!
\brief clear EXMC flag
\param[in] exmc_bank: specifie the NAND bank , PCCARD bank
\arg EXMC_BANK1_NAND: the NAND bank1
\arg EXMC_BANK2_NAND: the NAND bank2
\arg EXMC_BANK3_PCCARD: the PC card bank
\param[in] flag: specify get which flag
\arg EXMC_NAND_PCCARD_FLAG_RISE: interrupt rising edge status
\arg EXMC_NAND_PCCARD_FLAG_LEVEL: interrupt high-level status
\arg EXMC_NAND_PCCARD_FLAG_FALL: interrupt falling edge status
\arg EXMC_NAND_PCCARD_FLAG_FIFOE: FIFO empty flag
\param[out] none
\retval none
*/
void exmc_flag_clear(uint32_t exmc_bank,uint32_t flag)
{
/* NAND bank1,bank2 or PC card bank3 */
EXMC_NPINTEN(exmc_bank) &= (~flag);
}
/*!
\brief check EXMC interrupt flag is set or not
\param[in] exmc_bank: specifies the NAND bank , PC card bank
\arg EXMC_BANK1_NAND: the NAND bank1
\arg EXMC_BANK2_NAND: the NAND bank2
\arg EXMC_BANK3_PCCARD: the PC card bank
\param[in] interrupt_source: specify get which interrupt flag
\arg EXMC_NAND_PCCARD_INT_FLAG_RISE: interrupt source of rising edge
\arg EXMC_NAND_PCCARD_INT_FLAG_LEVEL: interrupt source of high-level
\arg EXMC_NAND_PCCARD_INT_FLAG_FALL: interrupt source of falling edge
\param[out] none
\retval FlagStatus: SET or RESET
*/
FlagStatus exmc_interrupt_flag_get(uint32_t exmc_bank,uint32_t interrupt_source)
{
uint32_t status = 0x00000000U,interrupt_enable = 0x00000000U,interrupt_state = 0x00000000U;
/* NAND bank1,bank2 or PC card bank3 */
status = EXMC_NPINTEN(exmc_bank);
interrupt_state = (status & (interrupt_source >> INTEN_INTS_OFFSET));
interrupt_enable = (status & interrupt_source);
if ((interrupt_enable) && (interrupt_state)){
/* interrupt flag is set */
return SET;
}else{
/* interrupt flag is reset */
return RESET;
}
}
/*!
\brief clear EXMC interrupt flag
\param[in] exmc_bank: specifies the NAND bank , PC card bank
\arg EXMC_BANK1_NAND: the NAND bank1
\arg EXMC_BANK2_NAND: the NAND bank2
\arg EXMC_BANK3_PCCARD: the PC card bank
\param[in] interrupt_source: specify get which interrupt flag
\arg EXMC_NAND_PCCARD_INT_FLAG_RISE: interrupt source of rising edge
\arg EXMC_NAND_PCCARD_INT_FLAG_LEVEL: interrupt source of high-level
\arg EXMC_NAND_PCCARD_INT_FLAG_FALL: interrupt source of falling edge
\param[out] none
\retval none
*/
void exmc_interrupt_flag_clear(uint32_t exmc_bank,uint32_t interrupt_source)
{
/* NAND bank1,bank2 or PC card bank3 */
EXMC_NPINTEN(exmc_bank) &= ~(interrupt_source >> INTEN_INTS_OFFSET);
}
/*!
\brief enable EXMC interrupt
\param[in] exmc_bank: specifies the NAND bank,PC card bank
\arg EXMC_BANK1_NAND: the NAND bank1
\arg EXMC_BANK2_NAND: the NAND bank2
\arg EXMC_BANK3_PCCARD: the PC card bank
\param[in] interrupt_source: specify get which interrupt flag
\arg EXMC_NAND_PCCARD_INT_RISE: interrupt source of rising edge
\arg EXMC_NAND_PCCARD_INT_LEVEL: interrupt source of high-level
\arg EXMC_NAND_PCCARD_INT_FALL: interrupt source of falling edge
\param[out] none
\retval none
*/
void exmc_interrupt_enable(uint32_t exmc_bank,uint32_t interrupt_source)
{
/* NAND bank1,bank2 or PC card bank3 */
EXMC_NPINTEN(exmc_bank) |= interrupt_source;
}
/*!
\brief disable EXMC interrupt
\param[in] exmc_bank: specifies the NAND bank , PC card bank
\arg EXMC_BANK1_NAND: the NAND bank1
\arg EXMC_BANK2_NAND: the NAND bank2
\arg EXMC_BANK3_PCCARD: the PC card bank
\param[in] interrupt_source: specify get which interrupt flag
\arg EXMC_NAND_PCCARD_INT_RISE: interrupt source of rising edge
\arg EXMC_NAND_PCCARD_INT_LEVEL: interrupt source of high-level
\arg EXMC_NAND_PCCARD_INT_FALL: interrupt source of falling edge
\param[out] none
\retval none
*/
void exmc_interrupt_disable(uint32_t exmc_bank,uint32_t interrupt_source)
{
/* NAND bank1,bank2 or PC card bank3 */
EXMC_NPINTEN(exmc_bank) &= (~interrupt_source);
}