Current Path : /sys/boot/arm/at91/libat91/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/boot/arm/at91/libat91/spi_flash.c |
/****************************************************************************** * * Filename: spi_flash.c * * Instantiation of SPI flash control routines supporting AT45DB161B * * Revision information: * * 17JAN2005 kb_admin initial creation * adapted from external sources * tested for basic operation only!!! * * BEGIN_KBDD_BLOCK * No warranty, expressed or implied, is included with this software. It is * provided "AS IS" and no warranty of any kind including statutory or aspects * relating to merchantability or fitness for any purpose is provided. All * intellectual property rights of others is maintained with the respective * owners. This software is not copyrighted and is intended for reference * only. * END_BLOCK * * $FreeBSD: release/9.1.0/sys/boot/arm/at91/libat91/spi_flash.c 174877 2007-12-23 14:46:30Z ticso $ *****************************************************************************/ #include "at91rm9200.h" #include "spi_flash.h" #include "lib.h" /*********************** PRIVATE FUNCTIONS/DATA ******************************/ static spiCommand_t spi_command; static char tx_commandBuffer[8], rx_commandBuffer[8]; /* * .KB_C_FN_DEFINITION_START * void SendCommand(spiCommand_t *pCommand) * Private function sends 8-bit value to the device and returns the 8-bit * value in response. * .KB_C_FN_DEFINITION_END */ static void SendCommand(spiCommand_t *pCommand) { AT91PS_SPI pSPI = AT91C_BASE_SPI; pSPI->SPI_PTCR = AT91C_PDC_TXTDIS | AT91C_PDC_RXTDIS; pSPI->SPI_RPR = (unsigned)pCommand->rx_cmd; pSPI->SPI_RCR = pCommand->rx_cmd_size; pSPI->SPI_TPR = (unsigned)pCommand->tx_cmd; pSPI->SPI_TCR = pCommand->tx_cmd_size; pSPI->SPI_TNPR = (unsigned)pCommand->tx_data; pSPI->SPI_TNCR = pCommand->tx_data_size; pSPI->SPI_RNPR = (unsigned)pCommand->rx_data; pSPI->SPI_RNCR = pCommand->rx_data_size; pSPI->SPI_PTCR = AT91C_PDC_TXTEN | AT91C_PDC_RXTEN; // wait for completion while (!(pSPI->SPI_SR & AT91C_SPI_SPENDRX)) Delay(700); } /* * .KB_C_FN_DEFINITION_START * char GetFlashStatus(void) * Private function to return device status. * .KB_C_FN_DEFINITION_END */ static char GetFlashStatus(void) { p_memset((char *)&spi_command, 0, sizeof(spi_command)); p_memset(tx_commandBuffer, 0, 8); tx_commandBuffer[0] = STATUS_REGISTER_READ; p_memset(rx_commandBuffer, 0, 8); spi_command.tx_cmd = tx_commandBuffer; spi_command.rx_cmd = rx_commandBuffer; spi_command.rx_cmd_size = 2; spi_command.tx_cmd_size = 2; SendCommand(&spi_command); return (rx_commandBuffer[1]); } /* * .KB_C_FN_DEFINITION_START * void WaitForDeviceReady(void) * Private function to poll until the device is ready for next operation. * .KB_C_FN_DEFINITION_END */ static void WaitForDeviceReady(void) { while (!(GetFlashStatus() & 0x80)) ; } /*************************** GLOBAL FUNCTIONS ********************************/ /* * .KB_C_FN_DEFINITION_START * void SPI_ReadFlash(unsigned flash_addr, unsigned dest_addr, unsigned size) * Global function to read the SPI flash device using the continuous read * array command. * .KB_C_FN_DEFINITION_END */ void SPI_ReadFlash(unsigned flash_addr, char *dest_addr, unsigned size) { unsigned pageAddress, byteAddress; // determine page address pageAddress = flash_addr / FLASH_PAGE_SIZE; // determine byte address byteAddress = flash_addr % FLASH_PAGE_SIZE; p_memset(tx_commandBuffer, 0, 8); #ifdef BOOT_BWCT tx_commandBuffer[0] = 0xd2; tx_commandBuffer[1] = ((pageAddress >> 6) & 0xFF); tx_commandBuffer[2] = ((pageAddress << 2) & 0xFC) | ((byteAddress >> 8) & 0x3); tx_commandBuffer[3] = byteAddress & 0xFF; spi_command.tx_cmd = tx_commandBuffer; spi_command.tx_cmd_size = 8; spi_command.tx_data_size = size; spi_command.tx_data = dest_addr; p_memset(rx_commandBuffer, 0, 8); spi_command.rx_cmd = rx_commandBuffer; spi_command.rx_cmd_size = 8; spi_command.rx_data_size = size; spi_command.rx_data = dest_addr; #else tx_commandBuffer[0] = CONTINUOUS_ARRAY_READ_HF; tx_commandBuffer[1] = ((pageAddress >> 5) & 0xFF); tx_commandBuffer[2] = ((pageAddress << 3) & 0xF8) | ((byteAddress >> 8) & 0x7); tx_commandBuffer[3] = byteAddress & 0xFF; spi_command.tx_cmd = tx_commandBuffer; spi_command.tx_cmd_size = 5; spi_command.tx_data_size = size; spi_command.tx_data = dest_addr; p_memset(rx_commandBuffer, 0, 8); spi_command.rx_cmd = rx_commandBuffer; spi_command.rx_cmd_size = 5; spi_command.rx_data_size = size; spi_command.rx_data = dest_addr; #endif SendCommand(&spi_command); } /* * .KB_C_FN_DEFINITION_START * void SPI_WriteFlash(unsigned flash_addr, unsigned src_addr, unsigned size) * Global function to program the SPI flash device. Notice the warning * provided in lower-level functions regarding corruption of data in non- * page aligned write operations. * .KB_C_FN_DEFINITION_END */ void SPI_WriteFlash(unsigned flash_addr, char *src_addr, unsigned size) { unsigned pageAddress, byteAddress; // determine page address pageAddress = flash_addr / FLASH_PAGE_SIZE; // determine byte address byteAddress = flash_addr % FLASH_PAGE_SIZE; p_memset(tx_commandBuffer, 0, 8); #ifdef BOOT_BWCT tx_commandBuffer[0] = 0x82; tx_commandBuffer[1] = ((pageAddress >> 6) & 0xFF); tx_commandBuffer[2] = ((pageAddress << 2) & 0xFC) | ((byteAddress >> 8) & 0x3); tx_commandBuffer[3] = (byteAddress & 0xFF); #else tx_commandBuffer[0] = PROGRAM_THROUGH_BUFFER; tx_commandBuffer[1] = ((pageAddress >> 5) & 0xFF); tx_commandBuffer[2] = ((pageAddress << 3) & 0xF8) | ((byteAddress >> 8) & 0x7); tx_commandBuffer[3] = (byteAddress & 0xFF); #endif p_memset(rx_commandBuffer, 0, 8); spi_command.tx_cmd = tx_commandBuffer; spi_command.rx_cmd = rx_commandBuffer; spi_command.rx_cmd_size = 4; spi_command.tx_cmd_size = 4; spi_command.tx_data_size = size; spi_command.tx_data = src_addr; spi_command.rx_data_size = size; spi_command.rx_data = src_addr; SendCommand(&spi_command); WaitForDeviceReady(); } /* * .KB_C_FN_DEFINITION_START * void SPI_InitFlash(void) * Global function to initialize the SPI flash device/accessor functions. * .KB_C_FN_DEFINITION_END */ void SPI_InitFlash(void) { AT91PS_PIO pPio; AT91PS_SPI pSPI = AT91C_BASE_SPI; unsigned value; // enable CS0, CLK, MOSI, MISO pPio = (AT91PS_PIO)AT91C_BASE_PIOA; pPio->PIO_ASR = AT91C_PA3_NPCS0 | AT91C_PA1_MOSI | AT91C_PA0_MISO | AT91C_PA2_SPCK; pPio->PIO_PDR = AT91C_PA3_NPCS0 | AT91C_PA1_MOSI | AT91C_PA0_MISO | AT91C_PA2_SPCK; // enable clocks to SPI AT91C_BASE_PMC->PMC_PCER = 1u << AT91C_ID_SPI; // reset the SPI pSPI->SPI_CR = AT91C_SPI_SWRST; pSPI->SPI_MR = (0xf << 24) | AT91C_SPI_MSTR | AT91C_SPI_MODFDIS | (0xE << 16); pSPI->SPI_CSR[0] = AT91C_SPI_CPOL | (4 << 16) | (2 << 8); pSPI->SPI_CR = AT91C_SPI_SPIEN; pSPI->SPI_PTCR = AT91C_PDC_TXTDIS; pSPI->SPI_PTCR = AT91C_PDC_RXTDIS; pSPI->SPI_RNPR = 0; pSPI->SPI_RNCR = 0; pSPI->SPI_TNPR = 0; pSPI->SPI_TNCR = 0; pSPI->SPI_RPR = 0; pSPI->SPI_RCR = 0; pSPI->SPI_TPR = 0; pSPI->SPI_TCR = 0; pSPI->SPI_PTCR = AT91C_PDC_RXTEN; pSPI->SPI_PTCR = AT91C_PDC_TXTEN; value = pSPI->SPI_RDR; value = pSPI->SPI_SR; value = GetFlashStatus() & 0xFC; #ifdef BOOT_BWCT if (value != 0xB4 && value != 0xAC) printf(" Bad SPI status: 0x%x\n", value); #else if (value != 0xBC) printf(" Bad SPI status: 0x%x\n", value); #endif }