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- /* ----------------------------------------------------------------------- *
- *
- * Copyright 2010-2021 H. Peter Anvin - All Rights Reserved
- *
- * This program is free software; you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
- * Boston MA 02110-1301, USA; either version 2 of the License, or
- * (at your option) any later version; incorporated herein by reference.
- *
- * ----------------------------------------------------------------------- */
- /*
- * sdcard.c
- *
- * SD card block driver
- *
- * Note: the handling of read operations is tricky, because they pick up
- * the results from the *previous* transaction. Therefore there are some
- * serious subtleties, especially with which byte position in the shift
- * register the result ends up in and what the size flag should be set to.
- */
- #include <stdbool.h>
- #include <stddef.h>
- #include <string.h>
- #include "fw.h"
- #include "io.h"
- #include "sdcard.h"
- #include "systime.h"
- #include "console.h"
- #include "ff.h"
- #include "diskio.h"
- #ifndef DEBUG
- # define DEBUG 0
- #endif
- #if DEBUG
- # define dbg_printf con_printf
- # define dbg_puts con_puts
- # define dbg_putc con_putc
- #else
- # define dbg_printf(f,...) ((void)0)
- # define dbg_puts(x) ((void)0)
- # define dbg_putc(x) ((void)0)
- #endif
- #define SECTOR_SHIFT 9
- #define SECTOR_SIZE (1UL << SECTOR_SHIFT)
- /* Command codes, including the leading 01 sequence */
- enum sdcard_cmd {
- CMD_GO_IDLE_STATE = 0x40, /* a.k.a. reset */
- CMD_SEND_OP_COND = 0x41,
- CMD_SWITCH_FUNC = 0x46,
- CMD_SEND_IF_COND = 0x48,
- CMD_SEND_CSD = 0x49,
- CMD_SEND_CID = 0x4a,
- CMD_STOP_TRANSMISSION = 0x4c,
- CMD_SEND_STATUS = 0x4d,
- CMD_SET_BLOCKLEN = 0x50,
- CMD_READ_SINGLE_BLOCK = 0x51,
- CMD_READ_MULTIPLE_BLOCK = 0x52,
- CMD_WRITE_BLOCK = 0x58,
- CMD_WRITE_MULTIPLE_BLOCK = 0x59,
- CMD_PROGRAM_CSD = 0x5b,
- CMD_SET_WRITE_PROT = 0x5c,
- CMD_CLR_WRITE_PROT = 0x5d,
- CMD_SEND_WRITE_PROT = 0x5e,
- CMD_ERASE_WR_BLK_START_ADDR = 0x60,
- CMD_ERASE_WR_BLK_END_ADDR = 0x61,
- CMD_ERASE = 0x66,
- CMD_LOCK_UNLOCK = 0x6a,
- CMD_APP_CMD = 0x77, /* == ACMD prefix */
- CMD_GEN_CMD = 0x78,
- CMD_READ_OCR = 0x7a,
- CMD_CRC_ON_OFF = 0x7b
- };
- enum sdcard_acmd {
- ACMD_SD_STATUS = 0x4d,
- ACMD_SEND_NUM_WR_BLOCKS = 0x56,
- ACMD_SET_WR_BLK_ERASE_COUNT = 0x57,
- ACMD_SD_SEND_OP_COND = 0x69,
- ACMD_SET_CLR_CARD_DETECT = 0x6a,
- ACMD_SEND_SCR = 0x73
- };
- struct sdcard_csd {
- uint32_t raw[4];
- };
- struct sdcard_cid {
- uint32_t raw[4];
- };
- struct sdcard_info {
- DSTATUS status;
- int8_t card_type;
- unsigned long lbasize;
- uint32_t if_cond;
- uint32_t ocr;
- struct sdcard_csd csd;
- struct sdcard_cid cid;
- };
- struct sdcard_info sdc = {
- .status = STA_NOINIT
- };
- /* < 0 if it should be left on, 0 for off, > 0 for off after timeout */
- static volatile int8_t sdcard_led;
- /*
- * Called by the timer interrupt
- */
- void sdcard_timer_tick(void)
- {
- #if 0
- if (sdcard_led > 0) {
- if (--sdcard_led == 0)
- *IO_SYS_LED &= ~0x01;
- }
- #endif
- }
- /*
- * Enable LED
- */
- static void sdcard_led_on(void)
- {
- #if 0
- sdcard_led = -1;
- *IO_SYS_LED |= 0x01;
- #endif
- }
- /*
- * Disable LED after timeout
- */
- static void sdcard_led_off(void)
- {
- sdcard_led = 4; /* 4 ticks @ 64 Hz = 62.5 ms */
- }
- static int sdcard_send_cmd(uint8_t opcode, uint32_t argument)
- {
- int status = -1;
- int i;
- if (!opcode)
- return 0; /* No command */
- dbg_printf("sdcard: CMD%02u arg %08x:", opcode ^ 0x40, argument);
- sd_writeb(opcode, SD_GO8|SD_CLEARCRC);
- sd_writel(argument, SD_BE|SD_GO32);
- /* GO16 so we discard the shifted-in byte from during the CRC7 */
- sd_writeb(sd_crc7_wr(), SD_GO16);
- /* The spec says a reply within 8 cycles, cut it some slack */
- for (i = 16; i; i--) {
- status = sd_readb(SD_GO8);
- dbg_printf(" %02x", status);
- if ((int8_t)status >= 0) /* Bit 7 = 0 for a valid reply */
- break;
- }
- dbg_putc('\n');
- return status;
- }
- static int sdcard_send_acmd(uint8_t opcode, uint32_t argument)
- {
- int rv;
- /* CMD55 = application command follows */
- rv = sdcard_send_cmd(CMD_APP_CMD, 0);
- if (rv & 0x04) /* Unknown command (very old card)? */
- return rv;
- return sdcard_send_cmd(opcode, argument);
- }
- /*
- * Read a data block of length len, with a timeout of (timeout)
- * byte-times. Note that the minimum length is 4 by spec;
- * this function may fail if this is not the case.
- *
- * The input buffer is allowed to be unaligned.
- */
- static int sdcard_read_block(void *buf, int len, int timeout,
- uint8_t xcmd, uint32_t xarg)
- {
- uint8_t tok;
- uint16_t zcrc;
- xptr_t p;
- int i;
- int badtimeout = 8;
- p.b = buf;
- /*
- * Are we supposed to send a command in parallel?
- * This is unsafe for small blocks, but we only need to do this
- * for full sectors (used to send STOP_TRANSMISSION).
- */
- if (xcmd)
- len -= 6; /* Handle the last 6 bytes specially */
- /*
- * Wait for data token
- */
- dbg_puts("sdcard: read token:");
- for (;;) {
- tok = sd_readb(SD_GO8|SD_CLEARCRC);
- dbg_printf(" %02x", tok);
- if (tok == 0xfe)
- break;
- if (tok < 0xfe && !--badtimeout) {
- dbg_printf("\nsdcard: read_block: bad token: %02x\n", tok);
- return -1; /* Bad token */
- }
- if (!--timeout) {
- dbg_printf("\nsdcard: read_block: reply timeout\n");
- return -1; /* Timeout */
- }
- }
- dbg_putc('\n');
- /*
- * At this point the first byte after the token is latched into
- * the input shift register. After dealing with alignment,
- * use dummy reads to shift in the rest of the first longword.
- */
- /* Shift in bytes if needed for alignment */
- if (p.a & 1) {
- *p.b++ = sd_readb(SD_GO8);
- len--;
- }
- sd_readb(SD_GO8); /* Now total of 2 bytes latched */
- if (p.a & 2) {
- *p.w++ = sd_readh(SD_GO16);
- len -= 2;
- }
- if (len >= 6) {
- sd_readh(SD_GO16); /* Now total of 4 bytes latched */
- while (len >= 6) {
- *p.l++ = sd_readl(SD_GO32);
- len -= 4;
- }
- *p.w++ = sd_readh(2); /* Consume the two least recent bytes */
- len -= 2;
- }
- /*
- * At this point, we are aligned to a 2-byte boundary with 2 bytes
- * in the input shift register; we need to maintain those two bytes
- * for the CRC.
- */
- while (len--)
- *p.b++ = sd_readb(SD_GO8 | 1);
- /*
- * If we're sending a command in parallel, then we have to
- * read in the last 6 bytes in parallel with transmitting the
- * command out. Because pb may be misaligned at this point,
- * do the latch reads/writes to memory as byte I/O.
- * We still have 2 bytes of data latched, and should end
- * with the same (for the CRC).
- *
- * To keep the logic anything remotely consistent, passively stuff
- * the new command into the transmit register before triggering
- * active read operations.
- *
- * Note that the destination buffer may be unaligned here.
- */
- if (xcmd) {
- sd_writeb(xcmd, SD_CLEARCRC);
- *p.b++ = sd_readb(SD_GO8 | 1);
- sd_writel(xarg, SD_BE);
- *p.b++ = sd_readb(SD_GO8 | 1);
- *p.b++ = sd_readb(SD_GO8 | 1);
- *p.b++ = sd_readb(SD_GO8 | 1);
- *p.b++ = sd_readb(SD_GO8 | 1);
- sd_writeb(sd_crc7_wr(), 0);
- *p.b++ = sd_readb(SD_GO8 | 1);
- }
- /*
- * Now the CRC is latched in the shift register, and the CRC
- * in the CRC generator should be zero.
- */
- zcrc = sd_crc16_rd();
- if (zcrc != 0x0000) {
- con_printf("sdcard_read_block: CRC error (zcrc = %04x)\n", zcrc);
- return -1;
- }
- /*
- * Shift in the first
- * byte after the CRC for the next round.
- */
- sd_readb(SD_GO8);
- return 0;
- }
- /*
- * Read a number of sectors; returns the number of sectors read.
- * The input buffer may be unaligned.
- */
- int sdcard_read_sectors(void *buf, uint32_t lba, int count)
- {
- int rv;
- int okcount = 0;
- static const uint16_t stop_transmission[3] =
- { (0x40|CMD_STOP_TRANSMISSION) << 8, 0x0000, 0x0061 };
- uint8_t resp;
- uint8_t *p = buf;
- if (!count)
- return 0;
- sdcard_led_on();
- con_printf("sdcard: reading %d sector%s at %u to %p\n",
- count, (count != 1) ? "s" : "", lba, buf);
- if (sdc.card_type == 1)
- lba <<= SECTOR_SHIFT; /* Convert to a byte address */
- rv = sdcard_send_cmd(CMD_READ_MULTIPLE_BLOCK, lba);
- if (rv & ~1) {
- con_printf("sdcard: read_multiple error %02x\n", rv);
- goto out;
- }
- while (count--) {
- rv = sdcard_read_block(p, SECTOR_SIZE, 200000,
- count ? 0 : CMD_STOP_TRANSMISSION, 0);
- if (rv)
- goto out;
- okcount++;
- p += SECTOR_SIZE;
- }
- /* The first byte after the stop command is undefined */
- sd_readb(SD_GO8);
- /* Wait for the response to the STOP TRANSMISSION command */
- do {
- resp = sd_readb(SD_GO8);
- } while ((int8_t)resp < 0);
- if (resp) {
- con_printf("sdcard: read_sectors: terminate command error %02x\n",
- resp);
- }
- out:
- sdcard_led_off();
- return okcount;
- }
- DRESULT disk_read(BYTE drive, BYTE *buffer,
- LBA_t sectornumber, UINT sectorcount)
- {
- int rv;
- (void)drive;
- rv = sdcard_read_sectors(buffer, sectornumber, sectorcount);
- return (rv == (int)sectorcount) ? RES_OK : RES_ERROR;
- }
- /*
- * Read CSD/CID
- */
- static int sdcard_read_reg(uint8_t opcode, void *buf, const char *name)
- {
- int rv;
- uint32_t *bp = buf;
- unsigned int i;
- memset(buf, 0, 16);
- con_printf("sdcard: %s:", name);
- rv = sdcard_send_cmd(opcode, 0);
- if (rv & ~1)
- goto err;
- rv = sdcard_read_block(buf, 16, 2000, 0, 0);
- if (rv)
- goto err;
- for (i = 0; i < 4; i++) {
- bp[i] = __builtin_bswap32(bp[i]);
- con_printf(" %08x", bp[i]);
- }
- con_putc('\n');
- return 0;
- err:
- con_printf(" failed, err %02x\n", rv);
- return rv;
- }
- static int sdcard_read_csd(void)
- {
- return sdcard_read_reg(CMD_SEND_CSD, &sdc.csd, "CSD");
- }
- static int sdcard_read_cid(void)
- {
- return sdcard_read_reg(CMD_SEND_CID, &sdc.cid, "CID");
- }
- /*
- * Write a number of sectors; returns the number of sectors written.
- * The buffer may be unaligned.
- */
- int sdcard_write_sectors(const void *buf, uint32_t lba, int count)
- {
- int rv;
- int okcount = 0;
- uint16_t crc;
- uint8_t resp;
- xcptr_t p;
- if (!count)
- return 0;
- p.b = buf;
- sdcard_led_on();
- con_printf("sdcard: writing %d sectors at %u from %p\n", count, lba, buf);
- if (sdc.card_type == 1)
- lba <<= SECTOR_SHIFT; /* Convert to a byte address */
- rv = sdcard_send_cmd(CMD_WRITE_MULTIPLE_BLOCK, lba);
- if (rv) {
- con_printf("sdcard: write_multiple error %02x\n", rv);
- goto out;
- }
- while (count--) {
- unsigned int podd = p.a & 3;
- size_t endloop = (p.a + SECTOR_SIZE) & ~3;
- /* Start block token */
- sd_writeb(0xfc, SD_GO8);
- /* Clear the CRC generator; dummy cycle */
- sd_writeb(~0, SD_CLEARCRC);
- if (podd & 1)
- sd_writeb(*p.b++, SD_GO8);
- if (podd & 2)
- sd_writeh(*p.w++, SD_GO16);
- while (p.a < endloop)
- sd_writel(*p.l++, SD_GO32);
- podd = -podd;
- if (podd & 2)
- sd_writeh(*p.w++, SD_GO16);
- if (podd & 1)
- sd_writeb(*p.b++, SD_GO8);
- sd_writeh(sd_crc16_wr(), SD_GO16);
- /* Wait for data response token */
- do {
- resp = sd_readb(SD_GO8);
- } while ((resp & 0x11) != 0x01);
- resp &= ~0xe0;
- if (resp != 0x05) {
- /*
- * Things are confusing here... the spec says
- * that on error we are supposed to issue a
- * STOP_TRANSMISSION command, which isn't the normal
- * thing to do for a write... figure this out later.
- */
- break; /* Error */
- }
- /* Wait until the card is ready for the next block */
- do {
- resp = sd_readb(SD_GO8);
- } while (resp == 0x00);
- okcount++;
- }
- /* Send stop transmission token */
- sd_writeb(0xfd, SD_GO8);
- /* Wait for the card to go busy, then unbusy */
- do {
- resp = sd_readb(SD_GO8);
- } while (resp != 0x00);
- do {
- resp = sd_readb(SD_GO8);
- } while (resp == 0x00);
- out:
- sdcard_led_off();
- return okcount;
- }
- DRESULT disk_write(BYTE drive, const BYTE *buffer, LBA_t sectornumber,
- UINT sectorcount)
- {
- int rv;
- if (drive != 0)
- return STA_NOINIT;
- rv = sdcard_write_sectors(buffer, sectornumber, sectorcount);
- return (rv == (int)sectorcount) ? RES_OK : RES_ERROR;
- }
- DRESULT disk_ioctl(BYTE drive, BYTE command, void *buffer)
- {
- if (drive != 0)
- return STA_NOINIT;
- switch (command) {
- case CTRL_SYNC:
- return RES_OK;
- case GET_SECTOR_SIZE:
- *(WORD *)buffer = 512;
- return RES_OK;
- case GET_SECTOR_COUNT:
- *(DWORD *)buffer = sdc.lbasize;
- return RES_OK;
- case GET_BLOCK_SIZE:
- *(DWORD *)buffer = 1; /* XXX */
- return RES_OK;
- default:
- return RES_PARERR;
- }
- }
- DWORD get_fattime(void)
- {
- return SYSCLOCK_DATETIME; /* Already in FAT format */
- }
- static unsigned long sdcard_compute_size(struct sdcard_info *sdi)
- {
- unsigned int c_size;
- unsigned int c_size_mult;
- unsigned int read_bl_len;
- unsigned long lbasize;
- sdi->card_type = (sdi->csd.raw[0] >> 30)+1;
- switch (sdi->card_type) {
- case 1: /* Classic SD/MMC card */
- c_size = ((sdi->csd.raw[2] & 0x3ff) << 2) +
- (sdi->csd.raw[3] >> 30);
- c_size_mult = (sdi->csd.raw[2] >> 15) & 7;
- read_bl_len = (sdi->csd.raw[1] >> 16) & 0xf;
- lbasize = (c_size + 1) << (c_size_mult + read_bl_len + 2 - 9);
- break;
- case 2: /* SDHC/SDXC/eMMC card */
- c_size = ((sdi->csd.raw[1] & 0x3f) << 16) +
- (sdi->csd.raw[2] >> 16);
- lbasize = c_size << 10;
- break;
- default:
- sdi->card_type = 0;
- return 0;
- }
- return sdi->lbasize = lbasize;
- }
- static const char *sdcard_type_name(uint8_t type)
- {
- static const char * const names[] = {
- "unknown",
- "SD/MMC",
- "SDHC/SDXC/eMMC"
- };
- if (type >= sizeof names/sizeof names[0])
- type = 0;
- return names[type];
- }
- static void sdcard_try_high_speed(void)
- {
- int rv;
- uint8_t tran_speed;
- return;
- if (!(sdc.csd.raw[1] & (1 << 30)))
- return; /* Cmd group 10 = CMD6 not supported */
- /* Try to switch to high speed mode */
- rv = sdcard_send_cmd(CMD_SWITCH_FUNC, 0x80fffff1);
- if (rv & ~1) {
- dbg_printf("sdcard: CMD6 returned %02x\n", rv);
- return;
- }
- if (1) {
- /*
- * Despite the spec, this doesn't seem to actually happen
- * in SPI mode?
- */
- uint8_t swdata[64]; /* Response from CMD6 */
- int i;
- for (i = 0; i < 64; i++)
- swdata[i] = sd_readb(SD_GO8);
- if ((swdata[47] & 0x0f) != 1) {
- dbg_printf("sdcard: CMD6 reported %X for high speed request\n",
- swdata[47] & 0x0f);
- return; /* Failed to switch to high speed mode */
- }
- }
- /*
- * Success, we should have switched mode.
- * This should be refleded in the TRAN_SPEED field in the CSD.
- */
- sd_readl(SD_GO32); /* Issue at least 8 clocks; go for 32 */
- /* Re-read the CSD */
- sdcard_read_csd();
- /* TRAN_SPEED should have changed now */
- tran_speed = (uint8_t)sdc.csd.raw[0];
- if ((tran_speed & 7) < 2 ||
- ((tran_speed & 7) == 2 && (tran_speed >> 3) < 0xb)) {
- dbg_printf("sdcard: speed switch failed, tran_speed %02x\n",
- tran_speed);
- return; /* High speed not available */
- }
- sd_set_mode(SD_50MHZ, true);
- con_printf("sdcard: switched to high speed\n");
- }
- DSTATUS disk_initialize(BYTE drive)
- {
- uint16_t status;
- uint32_t try_sdhc;
- bool is_sd;
- int i, j, rv;
- if (drive != 0)
- return STA_NOINIT;
- /* So we can wait for the ready condition */
- SDCARD_CTL_IRQEN = SDCARD_IRQ_READY;
- memset(&sdc, 0, sizeof sdc);
- #if 0
- status = /* Check card detect if present */
- if (!(status & 0x04)) {
- con_printf("No memory card installed\n");
- return sdc.status = STA_NOINIT|STA_NODISK;
- }
- #endif
- sdcard_led_on();
- /* Allow 4 retries in case the card is in a funky state */
- i = 4;
- while (1) {
- /*
- * Generate 256 clock cycles in slow mode, with CS# high.
- */
- sd_set_mode(SD_SLOW, false);
- for (j = 0; j < 8; j++)
- sd_writel(~0, SD_GO32);
- /* Assert CS# and send reset command */
- sd_set_mode(SD_SLOW, true);
- sd_writeb(~0, SD_GO8); /* Dummy byte after CS# assert */
- rv = sdcard_send_cmd(CMD_GO_IDLE_STATE, 0);
- if (rv == 0x01)
- break; /* Success! */
- if (!--i) {
- con_printf("sdcard: reset failed, assuming no card present\n", rv);
- sdcard_led_off();
- return sdc.status = STA_NOINIT | STA_NODISK;
- }
- }
- /* Switch to 20 MHz */
- sd_set_mode(SD_20MHZ, true);
- /* Enable command CRC checking (ignore result) */
- sdcard_send_cmd(CMD_CRC_ON_OFF, 0x0001);
- /* Probe for extended features */
- /*
- * Bit 7:0 = check pattern
- * Bit 11:8 = supply voltage (3.3 V)
- */
- rv = sdcard_send_cmd(CMD_SEND_IF_COND, 0x01aa);
- if ((rv & 0x04) == 0) {
- /* CMD8 supported */
- if (rv & ~0x03) {
- dbg_printf("sdcard; CMD8 error %02x\n", rv);
- sdcard_led_off();
- return sdc.status = STA_NOINIT;
- }
- /* Shift in additional data bytes */
- sd_readb(SD_GO8);
- sd_readh(SD_GO16);
- sdc.if_cond = sd_readl(SD_GO16|SD_BE);
- dbg_printf("sdcard: CMD8 returned 0x%08x\n", sdc.if_cond);
- if ((sdc.if_cond & 0x1ff) != 0x1aa) {
- con_printf("sdcard: CMD8 reports unusable card (0x%x)\n",
- sdc.if_cond);
- sdcard_led_off();
- return sdc.status = STA_NOINIT;
- }
- try_sdhc = 1 << 30;
- } else {
- try_sdhc = 0;
- }
- /* Initialize card */
- do {
- rv = sdcard_send_acmd(ACMD_SD_SEND_OP_COND, try_sdhc);
- if (rv & 0x04)
- break;
- if (rv & ~0x01) {
- con_printf("sdcard: ACMD41 error %02x\n", rv);
- sdcard_led_off();
- return sdc.status = STA_NOINIT;
- }
- } while (rv);
- if (!rv) {
- /* ACMD41 successful; this is an SD card: can switch to 25 MHz */
- is_sd = true;
- sd_set_mode(SD_25MHZ, true);
- rv = sdcard_send_cmd(CMD_READ_OCR, try_sdhc);
- if (rv) {
- con_printf("sdcard: CMD58 error %02x\n", rv);
- sdcard_led_off();
- return sdc.status = STA_NOINIT;
- }
- /* Shift in additional data bytes */
- sd_readb(SD_GO8);
- sd_readh(SD_GO16);
- sdc.ocr = sd_readl(SD_GO16|SD_BE);
- } else {
- /* ACMD41 unsupported, try CMD1 */
- is_sd = false;
- do {
- rv = sdcard_send_cmd(CMD_SEND_OP_COND, 0);
- if (rv & ~0x01) {
- con_printf("sdcard: CMD1 error %02x\n", rv);
- sdcard_led_off();
- return sdc.status = STA_NOINIT;
- }
- } while (rv);
- }
- /*
- * Set block length -- some cards power up to a larger block size
- * than 512 bytes even though that violates the spec.
- */
- rv = sdcard_send_cmd(CMD_SET_BLOCKLEN, 512);
- if (rv) {
- con_printf("sdcard: CMD16 error %02x\n", rv);
- sdcard_led_off();
- return sdc.status = STA_NOINIT;
- }
- /*
- * Read the CSD to figure out what command sets are available...
- */
- sdcard_read_csd(); /* Read CSD */
- /*
- * Try to switch to 50 MHz (optional)
- */
- if (is_sd)
- sdcard_try_high_speed();
- /*
- * Read the CID
- */
- sdcard_read_cid();
- sdcard_compute_size(&sdc);
- con_printf("sdcard: %s card found, capacity %u sectors\n",
- sdcard_type_name(sdc.card_type), sdc.lbasize);
- sdc.status = 0;
- sdcard_led_off();
- return sdc.status;
- }
- DSTATUS disk_status(BYTE drive)
- {
- if (drive != 0)
- return STA_NOINIT;
- return sdc.status;
- }
- static FATFS sd_fs;
- int disk_init(void)
- {
- FRESULT rv;
- char label[128];
- uint32_t volid, freeclust;
- FATFS *fs;
- rv = f_mount(&sd_fs, "", 1);
- if (rv != FR_OK) {
- con_printf("sdcard: no volume found\n");
- return -1;
- }
- label[0] = '\0';
- volid = 0;
- f_getlabel("", label, &volid);
- con_printf("sdcard: volume found, label \"%s\", volid %08x\n", label, volid);
- freeclust = 0;
- f_getfree("", &freeclust, &fs);
- con_printf("sdcard: %u/%u clusters free, clusters = %u bytes\n",
- freeclust, fs->n_fatent - 2, fs->csize << 9);
- return 0;
- }
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