kopia lustrzana https://github.com/pimoroni/pimoroni-pico
629 wiersze
18 KiB
C
629 wiersze
18 KiB
C
#include "sdcard.h"
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#include "pico.h"
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#include "pico/stdlib.h"
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#include "hardware/clocks.h"
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#ifndef SDCARD_PIO
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#include "hardware/spi.h"
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#else
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#include "pio_spi.h"
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#endif
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#include "hardware/gpio.h"
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//#include "hardware/gpio_ex.h"
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#include "ff.h"
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#include "diskio.h"
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/*--------------------------------------------------------------------------
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Module Private Functions
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---------------------------------------------------------------------------*/
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/* MMC/SD command */
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#define CMD0 (0) /* GO_IDLE_STATE */
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#define CMD1 (1) /* SEND_OP_COND (MMC) */
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#define ACMD41 (0x80+41) /* SEND_OP_COND (SDC) */
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#define CMD8 (8) /* SEND_IF_COND */
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#define CMD9 (9) /* SEND_CSD */
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#define CMD10 (10) /* SEND_CID */
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#define CMD12 (12) /* STOP_TRANSMISSION */
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#define ACMD13 (0x80+13) /* SD_STATUS (SDC) */
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#define CMD16 (16) /* SET_BLOCKLEN */
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#define CMD17 (17) /* READ_SINGLE_BLOCK */
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#define CMD18 (18) /* READ_MULTIPLE_BLOCK */
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#define CMD23 (23) /* SET_BLOCK_COUNT (MMC) */
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#define ACMD23 (0x80+23) /* SET_WR_BLK_ERASE_COUNT (SDC) */
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#define CMD24 (24) /* WRITE_BLOCK */
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#define CMD25 (25) /* WRITE_MULTIPLE_BLOCK */
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#define CMD32 (32) /* ERASE_ER_BLK_START */
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#define CMD33 (33) /* ERASE_ER_BLK_END */
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#define CMD38 (38) /* ERASE */
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#define CMD55 (55) /* APP_CMD */
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#define CMD58 (58) /* READ_OCR */
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/* MMC card type flags (MMC_GET_TYPE) */
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#define CT_MMC 0x01 /* MMC ver 3 */
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#define CT_SD1 0x02 /* SD ver 1 */
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#define CT_SD2 0x04 /* SD ver 2 */
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#define CT_SDC (CT_SD1|CT_SD2) /* SD */
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#define CT_BLOCK 0x08 /* Block addressing */
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#define CLK_SLOW (100 * KHZ)
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#define CLK_FAST (50 * MHZ)
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static volatile
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DSTATUS Stat = STA_NOINIT; /* Physical drive status */
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static
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BYTE CardType; /* Card type flags */
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#ifdef SDCARD_PIO
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pio_spi_inst_t pio_spi = {
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.pio = SDCARD_PIO,
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.sm = SDCARD_PIO_SM
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};
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#endif
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static inline uint32_t _millis(void)
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{
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return to_ms_since_boot(get_absolute_time());
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}
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/*-----------------------------------------------------------------------*/
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/* SPI controls (Platform dependent) */
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/*-----------------------------------------------------------------------*/
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static inline void cs_select(uint cs_pin) {
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asm volatile("nop \n nop \n nop"); // FIXME
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gpio_put(cs_pin, 0);
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asm volatile("nop \n nop \n nop"); // FIXME
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}
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static inline void cs_deselect(uint cs_pin) {
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asm volatile("nop \n nop \n nop"); // FIXME
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gpio_put(cs_pin, 1);
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asm volatile("nop \n nop \n nop"); // FIXME
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}
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static void FCLK_SLOW(void)
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{
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#ifndef SDCARD_PIO
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spi_set_baudrate(SDCARD_SPI_BUS, CLK_SLOW);
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#endif
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}
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static void FCLK_FAST(void)
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{
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#ifndef SDCARD_PIO
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spi_set_baudrate(SDCARD_SPI_BUS, CLK_FAST);
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#endif
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}
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static void CS_HIGH(void)
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{
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cs_deselect(SDCARD_PIN_SPI0_CS);
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}
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static void CS_LOW(void)
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{
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cs_select(SDCARD_PIN_SPI0_CS);
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}
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/* Initialize MMC interface */
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static
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void init_spi(void)
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{
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/* GPIO pin configuration */
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/* pull up of MISO is MUST (10Kohm external pull up is recommended) */
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/* Set drive strength and slew rate if needed to meet wire condition */
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gpio_init(SDCARD_PIN_SPI0_SCK);
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//gpio_pull_up(SDCARD_PIN_SPI0_SCK);
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//gpio_set_drive_strength(SDCARD_PIN_SPI0_SCK, PADS_BANK0_GPIO0_DRIVE_VALUE_4MA); // 2mA, 4mA (default), 8mA, 12mA
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//gpio_set_slew_rate(SDCARD_PIN_SPI0_SCK, 0); // 0: SLOW (default), 1: FAST
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gpio_init(SDCARD_PIN_SPI0_MISO);
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gpio_pull_up(SDCARD_PIN_SPI0_MISO);
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//gpio_set_schmitt(SDCARD_PIN_SPI0_MISO, 1); // 0: Off, 1: On (default)
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gpio_init(SDCARD_PIN_SPI0_MOSI);
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gpio_pull_up(SDCARD_PIN_SPI0_MOSI);
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//gpio_set_drive_strength(SDCARD_PIN_SPI0_MOSI, PADS_BANK0_GPIO0_DRIVE_VALUE_4MA); // 2mA, 4mA (default), 8mA, 12mA
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//gpio_set_slew_rate(SDCARD_PIN_SPI0_MOSI, 0); // 0: SLOW (default), 1: FAST
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gpio_init(SDCARD_PIN_SPI0_CS);
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//gpio_pull_up(SDCARD_PIN_SPI0_CS);
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//gpio_set_drive_strength(SDCARD_PIN_SPI0_CS, PADS_BANK0_GPIO0_DRIVE_VALUE_4MA); // 2mA, 4mA (default), 8mA, 12mA
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//gpio_set_slew_rate(SDCARD_PIN_SPI0_CS, 0); // 0: SLOW (default), 1: FAST
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gpio_set_dir(SDCARD_PIN_SPI0_CS, GPIO_OUT);
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/* chip _select invalid*/
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CS_HIGH();
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#ifndef SDCARD_PIO
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gpio_set_function(SDCARD_PIN_SPI0_SCK, GPIO_FUNC_SPI);
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gpio_set_function(SDCARD_PIN_SPI0_MISO, GPIO_FUNC_SPI);
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gpio_set_function(SDCARD_PIN_SPI0_MOSI, GPIO_FUNC_SPI);
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spi_init(SDCARD_SPI_BUS, CLK_SLOW);
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/* SPI0 parameter config */
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spi_set_format(SDCARD_SPI_BUS,
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8, /* data_bits */
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SPI_CPOL_0, /* cpol */
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SPI_CPHA_0, /* cpha */
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SPI_MSB_FIRST /* order */
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);
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#else
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gpio_set_dir(SDCARD_PIN_SPI0_SCK, GPIO_OUT);
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gpio_set_dir(SDCARD_PIN_SPI0_MISO, GPIO_OUT);
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gpio_set_dir(SDCARD_PIN_SPI0_MOSI, GPIO_OUT);
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float clkdiv = 3.0f;
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int cpol = 0;
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int cpha = 0;
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uint cpha0_prog_offs = pio_add_program(pio_spi.pio, &spi_cpha0_program);
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pio_spi_init(pio_spi.pio, pio_spi.sm,
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cpha0_prog_offs,
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8, // 8 bits per SPI frame
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clkdiv,
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cpha,
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cpol,
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SDCARD_PIN_SPI0_SCK,
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SDCARD_PIN_SPI0_MOSI,
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SDCARD_PIN_SPI0_MISO
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);
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#endif
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}
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/* Exchange a byte */
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static
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BYTE xchg_spi (
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BYTE dat /* Data to send */
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)
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{
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uint8_t *buff = (uint8_t *) &dat;
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#ifndef SDCARD_PIO
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spi_write_read_blocking(SDCARD_SPI_BUS, buff, buff, 1);
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#else
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pio_spi_write8_read8_blocking(&pio_spi, buff, buff, 1);
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#endif
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return (BYTE) *buff;
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}
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/* Receive multiple byte */
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static
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void rcvr_spi_multi (
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BYTE *buff, /* Pointer to data buffer */
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UINT btr /* Number of bytes to receive (even number) */
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)
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{
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uint8_t *b = (uint8_t *) buff;
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#ifndef SDCARD_PIO
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spi_read_blocking(SDCARD_SPI_BUS, 0xff, b, btr);
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#else
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pio_spi_repeat8_read8_blocking(&pio_spi, 0xff, b, btr);
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#endif
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}
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/*-----------------------------------------------------------------------*/
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/* Wait for card ready */
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/*-----------------------------------------------------------------------*/
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static
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int wait_ready ( /* 1:Ready, 0:Timeout */
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UINT wt /* Timeout [ms] */
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)
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{
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BYTE d;
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uint32_t t = _millis();
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do {
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d = xchg_spi(0xFF);
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/* This loop takes a time. Insert rot_rdq() here for multitask envilonment. */
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} while (d != 0xFF && _millis() < t + wt); /* Wait for card goes ready or timeout */
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return (d == 0xFF) ? 1 : 0;
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}
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/*-----------------------------------------------------------------------*/
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/* Deselect card and release SPI */
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/*-----------------------------------------------------------------------*/
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static
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void deselect (void)
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{
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CS_HIGH(); /* Set CS# high */
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xchg_spi(0xFF); /* Dummy clock (force DO hi-z for multiple slave SPI) */
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}
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/*-----------------------------------------------------------------------*/
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/* Select card and wait for ready */
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/*-----------------------------------------------------------------------*/
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static
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int _select (void) /* 1:OK, 0:Timeout */
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{
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CS_LOW(); /* Set CS# low */
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xchg_spi(0xFF); /* Dummy clock (force DO enabled) */
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if (wait_ready(500)) return 1; /* Wait for card ready */
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deselect();
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return 0; /* Timeout */
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}
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/*-----------------------------------------------------------------------*/
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/* Receive a data packet from the MMC */
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/*-----------------------------------------------------------------------*/
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static
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int rcvr_datablock ( /* 1:OK, 0:Error */
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BYTE *buff, /* Data buffer */
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UINT btr /* Data block length (byte) */
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)
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{
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BYTE token;
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const uint32_t timeout = 200;
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uint32_t t = _millis();
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do { /* Wait for DataStart token in timeout of 200ms */
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token = xchg_spi(0xFF);
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/* This loop will take a time. Insert rot_rdq() here for multitask envilonment. */
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} while (token == 0xFF && _millis() < t + timeout);
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if(token != 0xFE) return 0; /* Function fails if invalid DataStart token or timeout */
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rcvr_spi_multi(buff, btr); /* Store trailing data to the buffer */
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xchg_spi(0xFF); xchg_spi(0xFF); /* Discard CRC */
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return 1; /* Function succeeded */
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}
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/*-----------------------------------------------------------------------*/
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/* Send a command packet to the MMC */
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/*-----------------------------------------------------------------------*/
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static
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BYTE send_cmd ( /* Return value: R1 resp (bit7==1:Failed to send) */
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BYTE cmd, /* Command index */
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DWORD arg /* Argument */
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)
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{
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BYTE n, res;
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if (cmd & 0x80) { /* Send a CMD55 prior to ACMD<n> */
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cmd &= 0x7F;
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res = send_cmd(CMD55, 0);
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if (res > 1) return res;
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}
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/* Select the card and wait for ready except to stop multiple block read */
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if (cmd != CMD12) {
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deselect();
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if (!_select()) return 0xFF;
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}
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/* Send command packet */
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xchg_spi(0x40 | cmd); /* Start + command index */
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xchg_spi((BYTE)(arg >> 24)); /* Argument[31..24] */
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xchg_spi((BYTE)(arg >> 16)); /* Argument[23..16] */
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xchg_spi((BYTE)(arg >> 8)); /* Argument[15..8] */
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xchg_spi((BYTE)arg); /* Argument[7..0] */
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n = 0x01; /* Dummy CRC + Stop */
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if (cmd == CMD0) n = 0x95; /* Valid CRC for CMD0(0) */
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if (cmd == CMD8) n = 0x87; /* Valid CRC for CMD8(0x1AA) */
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xchg_spi(n);
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/* Receive command resp */
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if (cmd == CMD12) xchg_spi(0xFF); /* Diacard following one byte when CMD12 */
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n = 10; /* Wait for response (10 bytes max) */
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do {
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res = xchg_spi(0xFF);
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} while ((res & 0x80) && --n);
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return res; /* Return received response */
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}
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/*--------------------------------------------------------------------------
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Public Functions
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---------------------------------------------------------------------------*/
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/*-----------------------------------------------------------------------*/
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/* Initialize disk drive */
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/*-----------------------------------------------------------------------*/
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DSTATUS disk_initialize (
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BYTE drv /* Physical drive number (0) */
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)
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{
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BYTE n, cmd, ty, ocr[4];
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const uint32_t timeout = 1000; /* Initialization timeout = 1 sec */
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uint32_t t;
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if (drv) return STA_NOINIT; /* Supports only drive 0 */
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init_spi(); /* Initialize SPI */
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sleep_ms(10);
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if (Stat & STA_NODISK) return Stat; /* Is card existing in the soket? */
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FCLK_SLOW();
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CS_LOW();
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for (n = 10; n; n--) xchg_spi(0xFF); /* Send 80 dummy clocks */
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ty = 0;
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if (send_cmd(CMD0, 0) == 1) { /* Put the card SPI/Idle state */
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t = _millis();
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if (send_cmd(CMD8, 0x1AA) == 1) { /* SDv2? */
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for (n = 0; n < 4; n++) ocr[n] = xchg_spi(0xFF); /* Get 32 bit return value of R7 resp */
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if (ocr[2] == 0x01 && ocr[3] == 0xAA) { /* Is the card supports vcc of 2.7-3.6V? */
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while (_millis() < t + timeout && send_cmd(ACMD41, 1UL << 30)) ; /* Wait for end of initialization with ACMD41(HCS) */
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if (_millis() < t + timeout && send_cmd(CMD58, 0) == 0) { /* Check CCS bit in the OCR */
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for (n = 0; n < 4; n++) ocr[n] = xchg_spi(0xFF);
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ty = (ocr[0] & 0x40) ? CT_SD2 | CT_BLOCK : CT_SD2; /* Card id SDv2 */
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}
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}
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} else { /* Not SDv2 card */
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if (send_cmd(ACMD41, 0) <= 1) { /* SDv1 or MMC? */
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ty = CT_SD1; cmd = ACMD41; /* SDv1 (ACMD41(0)) */
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} else {
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ty = CT_MMC; cmd = CMD1; /* MMCv3 (CMD1(0)) */
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}
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while (_millis() < t + timeout && send_cmd(cmd, 0)) ; /* Wait for end of initialization */
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if (_millis() >= t + timeout || send_cmd(CMD16, 512) != 0) /* Set block length: 512 */
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ty = 0;
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}
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}
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CardType = ty; /* Card type */
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deselect();
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if (ty) { /* OK */
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FCLK_FAST(); /* Set fast clock */
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Stat &= ~STA_NOINIT; /* Clear STA_NOINIT flag */
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} else { /* Failed */
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Stat = STA_NOINIT;
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}
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return Stat;
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}
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/*-----------------------------------------------------------------------*/
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/* Get disk status */
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/*-----------------------------------------------------------------------*/
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DSTATUS disk_status (
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BYTE drv /* Physical drive number (0) */
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)
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{
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if (drv) return STA_NOINIT; /* Supports only drive 0 */
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return Stat; /* Return disk status */
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}
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/*-----------------------------------------------------------------------*/
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/* Read sector(s) */
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/*-----------------------------------------------------------------------*/
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DRESULT disk_read (
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BYTE drv, /* Physical drive number (0) */
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BYTE *buff, /* Pointer to the data buffer to store read data */
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LBA_t sector, /* Start sector number (LBA) */
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UINT count /* Number of sectors to read (1..128) */
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)
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{
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if (drv || !count) return RES_PARERR; /* Check parameter */
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if (Stat & STA_NOINIT) return RES_NOTRDY; /* Check if drive is ready */
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if (!(CardType & CT_BLOCK)) sector *= 512; /* LBA ot BA conversion (byte addressing cards) */
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if (count == 1) { /* Single sector read */
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if ((send_cmd(CMD17, sector) == 0) /* READ_SINGLE_BLOCK */
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&& rcvr_datablock(buff, 512)) {
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count = 0;
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}
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}
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else { /* Multiple sector read */
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if (send_cmd(CMD18, sector) == 0) { /* READ_MULTIPLE_BLOCK */
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do {
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if (!rcvr_datablock(buff, 512)) break;
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buff += 512;
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} while (--count);
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send_cmd(CMD12, 0); /* STOP_TRANSMISSION */
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}
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}
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deselect();
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return count ? RES_ERROR : RES_OK; /* Return result */
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}
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#if !FF_FS_READONLY && !FF_FS_NORTC
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/* get the current time */
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DWORD get_fattime (void)
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{
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return 0;
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}
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#endif
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#if FF_FS_READONLY == 0
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/* Transmit multiple byte */
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static
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void xmit_spi_multi (
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const BYTE *buff, /* Pointer to data buffer */
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UINT btx /* Number of bytes to transmit (even number) */
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)
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{
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const uint8_t *b = (const uint8_t *) buff;
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#ifndef SDCARD_PIO
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spi_write_blocking(SDCARD_SPI_BUS, b, btx);
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#else
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pio_spi_write8_blocking(&pio_spi, b, btx);
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#endif
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}
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/*-----------------------------------------------------------------------*/
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/* Transmit a data packet to the MMC */
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/*-----------------------------------------------------------------------*/
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static
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int xmit_datablock ( /* 1:OK, 0:Error */
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const BYTE *buff, /* 512 byte data block to be transmitted */
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BYTE token /* Data/Stop token */
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)
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{
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BYTE resp;
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if (!wait_ready(500)) return 0;
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xchg_spi(token); /* Xmit data token */
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if (token != 0xFD) { /* Is data token */
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xmit_spi_multi(buff, 512); /* Xmit the data block to the MMC */
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xchg_spi(0xFF); /* CRC (Dummy) */
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xchg_spi(0xFF);
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resp = xchg_spi(0xFF); /* Reveive data response */
|
|
if ((resp & 0x1F) != 0x05) /* If not accepted, return with error */
|
|
return 0;
|
|
}
|
|
return 1;
|
|
}
|
|
|
|
/*-----------------------------------------------------------------------*/
|
|
/* Write sector(s) */
|
|
/*-----------------------------------------------------------------------*/
|
|
|
|
DRESULT disk_write (
|
|
BYTE drv, /* Physical drive number (0) */
|
|
const BYTE *buff, /* Ponter to the data to write */
|
|
LBA_t sector, /* Start sector number (LBA) */
|
|
UINT count /* Number of sectors to write (1..128) */
|
|
)
|
|
{
|
|
if (drv || !count) return RES_PARERR; /* Check parameter */
|
|
if (Stat & STA_NOINIT) return RES_NOTRDY; /* Check drive status */
|
|
if (Stat & STA_PROTECT) return RES_WRPRT; /* Check write protect */
|
|
|
|
if (!(CardType & CT_BLOCK)) sector *= 512; /* LBA ==> BA conversion (byte addressing cards) */
|
|
|
|
if (!_select()) return RES_NOTRDY;
|
|
|
|
if (count == 1) { /* Single sector write */
|
|
if ((send_cmd(CMD24, sector) == 0) /* WRITE_BLOCK */
|
|
&& xmit_datablock(buff, 0xFE)) {
|
|
count = 0;
|
|
}
|
|
}
|
|
else { /* Multiple sector write */
|
|
if (CardType & CT_SDC) send_cmd(ACMD23, count); /* Predefine number of sectors */
|
|
if (send_cmd(CMD25, sector) == 0) { /* WRITE_MULTIPLE_BLOCK */
|
|
do {
|
|
if (!xmit_datablock(buff, 0xFC)) break;
|
|
buff += 512;
|
|
} while (--count);
|
|
if (!xmit_datablock(0, 0xFD)) count = 1; /* STOP_TRAN token */
|
|
}
|
|
}
|
|
deselect();
|
|
|
|
return count ? RES_ERROR : RES_OK; /* Return result */
|
|
}
|
|
#endif
|
|
|
|
|
|
/*-----------------------------------------------------------------------*/
|
|
/* Miscellaneous drive controls other than data read/write */
|
|
/*-----------------------------------------------------------------------*/
|
|
|
|
DRESULT disk_ioctl (
|
|
BYTE drv, /* Physical drive number (0) */
|
|
BYTE cmd, /* Control command code */
|
|
void *buff /* Pointer to the conrtol data */
|
|
)
|
|
{
|
|
DRESULT res;
|
|
BYTE n, csd[16];
|
|
DWORD *dp, st, ed, csize;
|
|
|
|
|
|
if (drv) return RES_PARERR; /* Check parameter */
|
|
if (Stat & STA_NOINIT) return RES_NOTRDY; /* Check if drive is ready */
|
|
|
|
res = RES_ERROR;
|
|
|
|
switch (cmd) {
|
|
case CTRL_SYNC : /* Wait for end of internal write process of the drive */
|
|
if (_select()) res = RES_OK;
|
|
break;
|
|
|
|
case GET_SECTOR_COUNT : /* Get drive capacity in unit of sector (DWORD) */
|
|
if ((send_cmd(CMD9, 0) == 0) && rcvr_datablock(csd, 16)) {
|
|
if ((csd[0] >> 6) == 1) { /* SDC ver 2.00 */
|
|
csize = csd[9] + ((WORD)csd[8] << 8) + ((DWORD)(csd[7] & 63) << 16) + 1;
|
|
*(DWORD*)buff = csize << 10;
|
|
} else { /* SDC ver 1.XX or MMC ver 3 */
|
|
n = (csd[5] & 15) + ((csd[10] & 128) >> 7) + ((csd[9] & 3) << 1) + 2;
|
|
csize = (csd[8] >> 6) + ((WORD)csd[7] << 2) + ((WORD)(csd[6] & 3) << 10) + 1;
|
|
*(DWORD*)buff = csize << (n - 9);
|
|
}
|
|
res = RES_OK;
|
|
}
|
|
break;
|
|
|
|
case GET_BLOCK_SIZE : /* Get erase block size in unit of sector (DWORD) */
|
|
if (CardType & CT_SD2) { /* SDC ver 2.00 */
|
|
if (send_cmd(ACMD13, 0) == 0) { /* Read SD status */
|
|
xchg_spi(0xFF);
|
|
if (rcvr_datablock(csd, 16)) { /* Read partial block */
|
|
for (n = 64 - 16; n; n--) xchg_spi(0xFF); /* Purge trailing data */
|
|
*(DWORD*)buff = 16UL << (csd[10] >> 4);
|
|
res = RES_OK;
|
|
}
|
|
}
|
|
} else { /* SDC ver 1.XX or MMC */
|
|
if ((send_cmd(CMD9, 0) == 0) && rcvr_datablock(csd, 16)) { /* Read CSD */
|
|
if (CardType & CT_SD1) { /* SDC ver 1.XX */
|
|
*(DWORD*)buff = (((csd[10] & 63) << 1) + ((WORD)(csd[11] & 128) >> 7) + 1) << ((csd[13] >> 6) - 1);
|
|
} else { /* MMC */
|
|
*(DWORD*)buff = ((WORD)((csd[10] & 124) >> 2) + 1) * (((csd[11] & 3) << 3) + ((csd[11] & 224) >> 5) + 1);
|
|
}
|
|
res = RES_OK;
|
|
}
|
|
}
|
|
break;
|
|
|
|
case CTRL_TRIM : /* Erase a block of sectors (used when _USE_ERASE == 1) */
|
|
if (!(CardType & CT_SDC)) break; /* Check if the card is SDC */
|
|
if (disk_ioctl(drv, MMC_GET_CSD, csd)) break; /* Get CSD */
|
|
if (!(csd[0] >> 6) && !(csd[10] & 0x40)) break; /* Check if sector erase can be applied to the card */
|
|
dp = buff; st = dp[0]; ed = dp[1]; /* Load sector block */
|
|
if (!(CardType & CT_BLOCK)) {
|
|
st *= 512; ed *= 512;
|
|
}
|
|
if (send_cmd(CMD32, st) == 0 && send_cmd(CMD33, ed) == 0 && send_cmd(CMD38, 0) == 0 && wait_ready(30000)) { /* Erase sector block */
|
|
res = RES_OK; /* FatFs does not check result of this command */
|
|
}
|
|
break;
|
|
|
|
default:
|
|
res = RES_PARERR;
|
|
}
|
|
|
|
deselect();
|
|
|
|
return res;
|
|
} |