upstream u-boot with additional patches for our devices/boards:
https://lists.denx.de/pipermail/u-boot/2017-March/282789.html (AXP crashes) ;
Gbit ethernet patch for some LIME2 revisions ;
with SPI flash support
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473 lines
13 KiB
473 lines
13 KiB
/****************************************************************************
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* SPI flash driver for M25P64
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****************************************************************************/
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#include <common.h>
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#include <linux/ctype.h>
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#include <asm/io.h>
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#if defined(CONFIG_SPI)
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/*Application definitions */
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#define NUM_SECTORS 128 /* number of sectors */
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#define SECTOR_SIZE 0x10000
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#define NOP_NUM 1000
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#define COMMON_SPI_SETTINGS (SPE|MSTR|CPHA|CPOL) /*Settings to the SPI_CTL */
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#define TIMOD01 (0x01) /*stes the SPI to work with core instructions */
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/*Flash commands */
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#define SPI_WREN (0x06) /*Set Write Enable Latch */
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#define SPI_WRDI (0x04) /*Reset Write Enable Latch */
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#define SPI_RDSR (0x05) /*Read Status Register */
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#define SPI_WRSR (0x01) /*Write Status Register */
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#define SPI_READ (0x03) /*Read data from memory */
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#define SPI_PP (0x02) /*Program Data into memory */
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#define SPI_SE (0xD8) /*Erase one sector in memory */
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#define SPI_BE (0xC7) /*Erase all memory */
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#define WIP (0x1) /*Check the write in progress bit of the SPI status register */
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#define WEL (0x2) /*Check the write enable bit of the SPI status register */
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#define TIMEOUT 350000000
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typedef enum {
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NO_ERR,
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POLL_TIMEOUT,
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INVALID_SECTOR,
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INVALID_BLOCK,
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} ERROR_CODE;
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void spi_init_f(void);
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void spi_init_r(void);
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ssize_t spi_read(uchar *, int, uchar *, int);
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ssize_t spi_write(uchar *, int, uchar *, int);
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char ReadStatusRegister(void);
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void Wait_For_SPIF(void);
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void SetupSPI(const int spi_setting);
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void SPI_OFF(void);
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void SendSingleCommand(const int iCommand);
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ERROR_CODE GetSectorNumber(unsigned long ulOffset, int *pnSector);
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ERROR_CODE EraseBlock(int nBlock);
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ERROR_CODE ReadData(unsigned long ulStart, long lCount, int *pnData);
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ERROR_CODE WriteData(unsigned long ulStart, long lCount, int *pnData);
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ERROR_CODE Wait_For_Status(char Statusbit);
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ERROR_CODE Wait_For_WEL(void);
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/* -------------------
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* Variables
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* ------------------- */
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/* **************************************************************************
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*
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* Function: spi_init_f
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*
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* Description: Init SPI-Controller (ROM part)
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*
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* return: ---
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*
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* *********************************************************************** */
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void spi_init_f(void)
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{
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}
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/* **************************************************************************
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*
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* Function: spi_init_r
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*
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* Description: Init SPI-Controller (RAM part) -
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* The malloc engine is ready and we can move our buffers to
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* normal RAM
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*
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* return: ---
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*
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* *********************************************************************** */
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void spi_init_r(void)
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{
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return;
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}
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/****************************************************************************
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* Function: spi_write
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**************************************************************************** */
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ssize_t spi_write(uchar * addr, int alen, uchar * buffer, int len)
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{
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unsigned long offset;
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int start_block, end_block;
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int start_byte, end_byte;
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ERROR_CODE result = NO_ERR;
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uchar temp[SECTOR_SIZE];
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int i, num;
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offset = addr[0] << 16 | addr[1] << 8 | addr[2];
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/* Get the start block number */
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result = GetSectorNumber(offset, &start_block);
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if (result == INVALID_SECTOR) {
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printf("Invalid sector! ");
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return 0;
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}
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/* Get the end block number */
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result = GetSectorNumber(offset + len - 1, &end_block);
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if (result == INVALID_SECTOR) {
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printf("Invalid sector! ");
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return 0;
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}
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for (num = start_block; num <= end_block; num++) {
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ReadData(num * SECTOR_SIZE, SECTOR_SIZE, (int *)temp);
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start_byte = num * SECTOR_SIZE;
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end_byte = (num + 1) * SECTOR_SIZE - 1;
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if (start_byte < offset)
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start_byte = offset;
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if (end_byte > (offset + len))
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end_byte = (offset + len - 1);
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for (i = start_byte; i <= end_byte; i++)
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temp[i - num * SECTOR_SIZE] = buffer[i - offset];
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EraseBlock(num);
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result = WriteData(num * SECTOR_SIZE, SECTOR_SIZE, (int *)temp);
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if (result != NO_ERR)
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return 0;
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printf(".");
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}
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return len;
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}
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/****************************************************************************
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* Function: spi_read
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**************************************************************************** */
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ssize_t spi_read(uchar * addr, int alen, uchar * buffer, int len)
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{
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unsigned long offset;
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offset = addr[0] << 16 | addr[1] << 8 | addr[2];
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ReadData(offset, len, (int *)buffer);
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return len;
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}
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void SendSingleCommand(const int iCommand)
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{
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unsigned short dummy;
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/*turns on the SPI in single write mode */
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SetupSPI((COMMON_SPI_SETTINGS | TIMOD01));
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/*sends the actual command to the SPI TX register */
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*pSPI_TDBR = iCommand;
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sync();
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/*The SPI status register will be polled to check the SPIF bit */
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Wait_For_SPIF();
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dummy = *pSPI_RDBR;
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/*The SPI will be turned off */
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SPI_OFF();
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}
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void SetupSPI(const int spi_setting)
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{
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if (icache_status() || dcache_status())
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udelay(CONFIG_CCLK_HZ / 50000000);
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/*sets up the PF2 to be the slave select of the SPI */
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*pSPI_FLG = 0xFB04;
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*pSPI_BAUD = CONFIG_SPI_BAUD;
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*pSPI_CTL = spi_setting;
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sync();
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}
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void SPI_OFF(void)
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{
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*pSPI_CTL = 0x0400; /* disable SPI */
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*pSPI_FLG = 0;
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*pSPI_BAUD = 0;
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sync();
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udelay(CONFIG_CCLK_HZ / 50000000);
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}
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void Wait_For_SPIF(void)
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{
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unsigned short dummyread;
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while ((*pSPI_STAT & TXS)) ;
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while (!(*pSPI_STAT & SPIF)) ;
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while (!(*pSPI_STAT & RXS)) ;
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dummyread = *pSPI_RDBR; /* Read dummy to empty the receive register */
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}
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ERROR_CODE Wait_For_WEL(void)
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{
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int i;
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char status_register = 0;
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ERROR_CODE ErrorCode = NO_ERR; /* tells us if there was an error erasing flash */
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for (i = 0; i < TIMEOUT; i++) {
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status_register = ReadStatusRegister();
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if ((status_register & WEL)) {
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ErrorCode = NO_ERR; /* tells us if there was an error erasing flash */
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break;
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}
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ErrorCode = POLL_TIMEOUT; /* Time out error */
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};
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return ErrorCode;
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}
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ERROR_CODE Wait_For_Status(char Statusbit)
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{
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int i;
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char status_register = 0xFF;
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ERROR_CODE ErrorCode = NO_ERR; /* tells us if there was an error erasing flash */
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for (i = 0; i < TIMEOUT; i++) {
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status_register = ReadStatusRegister();
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if (!(status_register & Statusbit)) {
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ErrorCode = NO_ERR; /* tells us if there was an error erasing flash */
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break;
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}
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ErrorCode = POLL_TIMEOUT; /* Time out error */
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};
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return ErrorCode;
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}
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char ReadStatusRegister(void)
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{
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char status_register = 0;
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SetupSPI((COMMON_SPI_SETTINGS | TIMOD01)); /* Turn on the SPI */
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*pSPI_TDBR = SPI_RDSR; /* send instruction to read status register */
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sync();
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Wait_For_SPIF(); /*wait until the instruction has been sent */
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*pSPI_TDBR = 0; /*send dummy to receive the status register */
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sync();
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Wait_For_SPIF(); /*wait until the data has been sent */
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status_register = *pSPI_RDBR; /*read the status register */
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SPI_OFF(); /* Turn off the SPI */
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return status_register;
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}
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ERROR_CODE GetSectorNumber(unsigned long ulOffset, int *pnSector)
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{
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int nSector = 0;
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ERROR_CODE ErrorCode = NO_ERR;
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if (ulOffset > (NUM_SECTORS * 0x10000 - 1)) {
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ErrorCode = INVALID_SECTOR;
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return ErrorCode;
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}
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nSector = (int)ulOffset / 0x10000;
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*pnSector = nSector;
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/* ok */
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return ErrorCode;
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}
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ERROR_CODE EraseBlock(int nBlock)
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{
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unsigned long ulSectorOff = 0x0, ShiftValue;
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ERROR_CODE ErrorCode = NO_ERR;
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/* if the block is invalid just return */
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if ((nBlock < 0) || (nBlock > NUM_SECTORS)) {
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ErrorCode = INVALID_BLOCK; /* tells us if there was an error erasing flash */
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return ErrorCode;
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}
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/* figure out the offset of the block in flash */
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if ((nBlock >= 0) && (nBlock < NUM_SECTORS)) {
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ulSectorOff = (nBlock * SECTOR_SIZE);
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} else {
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ErrorCode = INVALID_BLOCK; /* tells us if there was an error erasing flash */
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return ErrorCode;
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}
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/* A write enable instruction must previously have been executed */
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SendSingleCommand(SPI_WREN);
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/*The status register will be polled to check the write enable latch "WREN" */
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ErrorCode = Wait_For_WEL();
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if (POLL_TIMEOUT == ErrorCode) {
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printf("SPI Erase block error\n");
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return ErrorCode;
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} else
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/*Turn on the SPI to send single commands */
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SetupSPI((COMMON_SPI_SETTINGS | TIMOD01));
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/* Send the erase block command to the flash followed by the 24 address */
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/* to point to the start of a sector. */
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*pSPI_TDBR = SPI_SE;
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sync();
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Wait_For_SPIF();
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ShiftValue = (ulSectorOff >> 16); /* Send the highest byte of the 24 bit address at first */
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*pSPI_TDBR = ShiftValue;
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sync();
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Wait_For_SPIF(); /* Wait until the instruction has been sent */
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ShiftValue = (ulSectorOff >> 8); /* Send the middle byte of the 24 bit address at second */
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*pSPI_TDBR = ShiftValue;
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sync();
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Wait_For_SPIF(); /* Wait until the instruction has been sent */
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*pSPI_TDBR = ulSectorOff; /* Send the lowest byte of the 24 bit address finally */
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sync();
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Wait_For_SPIF(); /* Wait until the instruction has been sent */
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/*Turns off the SPI */
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SPI_OFF();
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/* Poll the status register to check the Write in Progress bit */
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/* Sector erase takes time */
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ErrorCode = Wait_For_Status(WIP);
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/* block erase should be complete */
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return ErrorCode;
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}
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/*****************************************************************************
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* ERROR_CODE ReadData()
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*
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* Read a value from flash for verify purpose
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*
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* Inputs: unsigned long ulStart - holds the SPI start address
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* int pnData - pointer to store value read from flash
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* long lCount - number of elements to read
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***************************************************************************** */
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ERROR_CODE ReadData(unsigned long ulStart, long lCount, int *pnData)
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{
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unsigned long ShiftValue;
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char *cnData;
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int i;
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cnData = (char *)pnData; /* Pointer cast to be able to increment byte wise */
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/* Start SPI interface */
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SetupSPI((COMMON_SPI_SETTINGS | TIMOD01));
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*pSPI_TDBR = SPI_READ; /* Send the read command to SPI device */
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sync();
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Wait_For_SPIF(); /* Wait until the instruction has been sent */
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ShiftValue = (ulStart >> 16); /* Send the highest byte of the 24 bit address at first */
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*pSPI_TDBR = ShiftValue; /* Send the byte to the SPI device */
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sync();
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Wait_For_SPIF(); /* Wait until the instruction has been sent */
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ShiftValue = (ulStart >> 8); /* Send the middle byte of the 24 bit address at second */
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*pSPI_TDBR = ShiftValue; /* Send the byte to the SPI device */
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sync();
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Wait_For_SPIF(); /* Wait until the instruction has been sent */
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*pSPI_TDBR = ulStart; /* Send the lowest byte of the 24 bit address finally */
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sync();
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Wait_For_SPIF(); /* Wait until the instruction has been sent */
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/* After the SPI device address has been placed on the MOSI pin the data can be */
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/* received on the MISO pin. */
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for (i = 0; i < lCount; i++) {
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*pSPI_TDBR = 0; /*send dummy */
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sync();
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while (!(*pSPI_STAT & RXS)) ;
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*cnData++ = *pSPI_RDBR; /*read */
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if ((i >= SECTOR_SIZE) && (i % SECTOR_SIZE == 0))
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printf(".");
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}
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SPI_OFF(); /* Turn off the SPI */
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return NO_ERR;
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}
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ERROR_CODE WriteFlash(unsigned long ulStartAddr, long lTransferCount,
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int *iDataSource, long *lWriteCount)
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{
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unsigned long ulWAddr;
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long lWTransferCount = 0;
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int i;
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char iData;
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char *temp = (char *)iDataSource;
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ERROR_CODE ErrorCode = NO_ERR; /* tells us if there was an error erasing flash */
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/* First, a Write Enable Command must be sent to the SPI. */
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SendSingleCommand(SPI_WREN);
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/* Second, the SPI Status Register will be tested whether the */
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/* Write Enable Bit has been set. */
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ErrorCode = Wait_For_WEL();
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if (POLL_TIMEOUT == ErrorCode) {
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printf("SPI Write Time Out\n");
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return ErrorCode;
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} else
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/* Third, the 24 bit address will be shifted out the SPI MOSI bytewise. */
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SetupSPI((COMMON_SPI_SETTINGS | TIMOD01)); /* Turns the SPI on */
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*pSPI_TDBR = SPI_PP;
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sync();
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Wait_For_SPIF(); /*wait until the instruction has been sent */
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ulWAddr = (ulStartAddr >> 16);
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*pSPI_TDBR = ulWAddr;
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sync();
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Wait_For_SPIF(); /*wait until the instruction has been sent */
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ulWAddr = (ulStartAddr >> 8);
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*pSPI_TDBR = ulWAddr;
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sync();
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Wait_For_SPIF(); /*wait until the instruction has been sent */
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ulWAddr = ulStartAddr;
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*pSPI_TDBR = ulWAddr;
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sync();
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Wait_For_SPIF(); /*wait until the instruction has been sent */
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/* Fourth, maximum number of 256 bytes will be taken from the Buffer */
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/* and sent to the SPI device. */
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for (i = 0; (i < lTransferCount) && (i < 256); i++, lWTransferCount++) {
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iData = *temp;
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*pSPI_TDBR = iData;
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sync();
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Wait_For_SPIF(); /*wait until the instruction has been sent */
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temp++;
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}
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SPI_OFF(); /* Turns the SPI off */
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/* Sixth, the SPI Write in Progress Bit must be toggled to ensure the */
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/* programming is done before start of next transfer. */
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ErrorCode = Wait_For_Status(WIP);
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if (POLL_TIMEOUT == ErrorCode) {
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printf("SPI Program Time out!\n");
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return ErrorCode;
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} else
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*lWriteCount = lWTransferCount;
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return ErrorCode;
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}
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ERROR_CODE WriteData(unsigned long ulStart, long lCount, int *pnData)
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{
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unsigned long ulWStart = ulStart;
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long lWCount = lCount, lWriteCount;
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long *pnWriteCount = &lWriteCount;
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ERROR_CODE ErrorCode = NO_ERR;
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while (lWCount != 0) {
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ErrorCode = WriteFlash(ulWStart, lWCount, pnData, pnWriteCount);
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/* After each function call of WriteFlash the counter must be adjusted */
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lWCount -= *pnWriteCount;
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/* Also, both address pointers must be recalculated. */
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ulWStart += *pnWriteCount;
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pnData += *pnWriteCount / 4;
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}
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/* return the appropriate error code */
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return ErrorCode;
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}
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#endif /* CONFIG_SPI */
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