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#include <stdlib.h>
#include <stdint.h>
#include <stdio.h>
#include "eos.h"
#include "soc/timer.h"
#include "soc/spi.h"
#include "spi.h"
#include "sdc_crypto.h"
#include "sdcard.h"
#define SDC_TIMEOUT_CMD 500
#define SDC_TIMEOUT_READ 200
#define SDC_TIMEOUT_WRITE 500
#define SDC_POLY_CRC7 0x09
#define SDC_POLY_CRC16 0x1021
#define SDC_CMD_FLAG_CRC 0x01
#define SDC_CMD_FLAG_NOCS 0x02
#define SDC_CMD_FLAG_NOWAIT 0x04
#define SDC_CMD_FLAG_RSTUFF 0x08
#define SDC_TOKEN_START_BLK 0xfe
#define SDC_TOKEN_START_BLKM 0xfc
#define SDC_TOKEN_STOP_TRAN 0xfd
#define SDC_DRESP_MASK 0x1f
#define SDC_DRESP_ACCEPT 0x05
#define SDC_DRESP_ERR_CRC 0x0b
#define SDC_DRESP_ERR_WRITE 0x0d
#define SDC_R1_READY 0x00
#define SDC_R1_IDLE_STATE 0x01
#define SDC_R1_ERASE_RESET 0x02
#define SDC_R1_ILLEGAL_CMD 0x04
#define SDC_R1_ERR_CMD_CRC 0x08
#define SDC_R1_ERR_ERASE_SEQ 0x10
#define SDC_R1_ERR_ADDR 0x20
#define SDC_R1_ERR_PARAM 0x40
#define SDC_NCR 10
#define SDC_ERR(rv) ((rv < 0) ? rv : EOS_ERR)
/* CMD */
#define GO_IDLE_STATE 0
#define SEND_OP_COND 1
#define SEND_IF_COND 8
#define SEND_CSD 9
#define STOP_TRANSMISSION 12
#define SET_BLOCKLEN 16
#define READ_SINGLE_BLOCK 17
#define READ_MULTIPLE_BLOCK 18
#define WRITE_BLOCK 24
#define WRITE_MULTIPLE_BLOCK 25
#define ERASE_WR_BLK_START 32
#define ERASE_WR_BLK_END 33
#define ERASE 38
#define APP_CMD 55
#define READ_OCR 58
/* ACMD */
#define SD_STATUS 13
#define SET_WR_BLK_ERASE_COUNT 23
#define SD_APP_OP_COND 41
static uint8_t sdc_type = 0;
static uint8_t sdc_crc7(uint8_t crc, uint8_t b) {
int i;
for (i=8; i--; b<<=1) {
crc <<= 1;
if ((b ^ crc) & 0x80) crc ^= SDC_POLY_CRC7;
}
return crc & 0x7f;
}
static uint16_t sdc_crc16(uint16_t crc, uint8_t b) {
int i;
crc = crc ^ ((uint16_t)b << 8);
for (i=8; i--;) {
if (crc & 0x8000) {
crc = (crc << 1) ^ SDC_POLY_CRC16;
} else {
crc <<= 1;
}
}
return crc;
}
static uint32_t sdc_nto(uint32_t start, uint32_t timeout) {
uint32_t d = eos_time_delta_ms(start);
return (d > timeout) ? 0 : timeout - d;
}
static uint8_t sdc_xchg8(uint8_t data) {
return eos_spi_xchg8(data, 0);
}
static uint16_t sdc_xchg16(uint16_t data) {
return eos_spi_xchg16(data, 0);
}
static uint32_t sdc_xchg32(uint32_t data) {
return eos_spi_xchg32(data, 0);
}
static void sdc_buf_send(unsigned char *buffer, uint16_t len) {
int i;
for (i=0; i<len; i++) {
sdc_xchg8(buffer[i]);
}
}
static void sdc_buf_recv(unsigned char *buffer, uint16_t len) {
int i;
for (i=0; i<len; i++) {
buffer[i] = sdc_xchg8(0xff);
}
}
static void sdc_select(void) {
eos_spi_cs_set();
eos_spi_xchg8(0xff, 0);
}
static void sdc_deselect(void) {
eos_spi_cs_clear();
eos_spi_xchg8(0xff, 0);
}
static int sdc_xchg_cmd(uint8_t cmd, uint32_t arg, uint8_t flags) {
int i;
uint8_t ret;
uint8_t crc = 0x7f;
cmd |= 0x40;
if (flags & SDC_CMD_FLAG_CRC) {
crc = sdc_crc7(0, cmd);
crc = sdc_crc7(crc, arg >> 24);
crc = sdc_crc7(crc, arg >> 16);
crc = sdc_crc7(crc, arg >> 8);
crc = sdc_crc7(crc, arg);
}
crc = (crc << 1) | 0x01;
sdc_xchg8(cmd);
sdc_xchg32(arg);
sdc_xchg8(crc);
if (flags & SDC_CMD_FLAG_RSTUFF) sdc_xchg8(0xff);
i = SDC_NCR;
do {
ret = sdc_xchg8(0xff);
} while ((ret & 0x80) && --i);
if (ret & 0x80) return EOS_ERR_BUSY;
return ret;
}
static int sdc_ready(uint32_t timeout) {
uint8_t d = 0;
uint32_t start;
if (timeout == 0) return EOS_ERR_BUSY;
start = eos_time_get_tick();
do {
if (eos_time_delta_ms(start) > timeout) break;
d = sdc_xchg8(0xff);
} while (d != 0xff);
if (d != 0xff) return EOS_ERR_BUSY;
return EOS_OK;
}
static int sdc_block_read(uint8_t *buffer, uint16_t len, uint32_t timeout) {
uint8_t token = 0xff;
uint32_t start;
if (timeout == 0) return EOS_ERR_BUSY;
start = eos_time_get_tick();
do {
if (eos_time_delta_ms(start) > timeout) break;
token = sdc_xchg8(0xff);
} while (token == 0xff);
if (token == 0xff) return EOS_ERR_BUSY;
if (token != SDC_TOKEN_START_BLK) return EOS_ERR;
sdc_buf_recv(buffer, len);
sdc_xchg16(0xffff); /* dummy CRC */
return EOS_OK;
}
static int sdc_block_write(uint8_t token, uint8_t *buffer, uint16_t len, uint32_t timeout) {
uint8_t d;
int rv;
rv = sdc_ready(timeout);
if (rv) return rv;
sdc_xchg8(token);
if (buffer && len) {
sdc_buf_send(buffer, len);
sdc_xchg16(0xffff); /* dummy CRC */
d = sdc_xchg8(0xff); /* Response */
if ((d & SDC_DRESP_MASK) != SDC_DRESP_ACCEPT) return EOS_ERR;
}
return EOS_OK;
}
static int sdc_cmd(uint8_t cmd, uint32_t arg, uint8_t flags, uint32_t timeout) {
int do_cs = !(flags & SDC_CMD_FLAG_NOCS);
int do_wait = !(flags & SDC_CMD_FLAG_NOWAIT);
int rv = EOS_OK;
if (do_cs) sdc_select();
if (do_wait) rv = sdc_ready(timeout);
if (rv) {
if (do_cs) sdc_deselect();
return rv;
}
rv = sdc_xchg_cmd(cmd, arg, flags);
if (do_cs) sdc_deselect();
return rv;
}
static int sdc_acmd(uint8_t cmd, uint32_t arg, uint8_t flags, uint32_t timeout) {
int rv;
uint32_t start;
start = eos_time_get_tick();
rv = sdc_cmd(APP_CMD, 0, flags, timeout);
if (rv & ~SDC_R1_IDLE_STATE) return rv;
if (flags & SDC_CMD_FLAG_NOCS) {
sdc_deselect();
sdc_select();
}
return sdc_cmd(cmd, arg, flags, sdc_nto(start, timeout));
}
static int sdc_init(uint32_t timeout) {
int rv, i;
uint8_t _type;
uint8_t ocr[4];
uint32_t start;
start = eos_time_get_tick();
eos_time_sleep(100);
for (i=10; i--;) sdc_xchg8(0xff); /* 80 dummy cycles */
rv = sdc_cmd(GO_IDLE_STATE, 0, SDC_CMD_FLAG_CRC, SDC_TIMEOUT_CMD);
if (rv != SDC_R1_IDLE_STATE) return SDC_ERR(rv);
sdc_select();
rv = sdc_cmd(SEND_IF_COND, 0x1aa, SDC_CMD_FLAG_CRC | SDC_CMD_FLAG_NOCS, sdc_nto(start, timeout));
switch (rv) {
case SDC_R1_IDLE_STATE:
for (i=0; i<4; i++) { /* R7 response */
ocr[i] = sdc_xchg8(0xff);
}
sdc_deselect();
if (ocr[2] == 0x01 && ocr[3] == 0xaa) { /* Check voltage range: 2.7-3.6V */
do {
rv = sdc_acmd(SD_APP_OP_COND, 0x40000000, 0, sdc_nto(start, timeout));
} while (rv == SDC_R1_IDLE_STATE);
if (rv != SDC_R1_READY) return SDC_ERR(rv);
sdc_select();
rv = sdc_cmd(READ_OCR, 0, SDC_CMD_FLAG_NOCS, sdc_nto(start, timeout));
if (rv == SDC_R1_READY) {
for (i=0; i<4; i++) { /* R7 response */
ocr[i] = sdc_xchg8(0xff);
}
sdc_deselect();
} else {
sdc_deselect();
return SDC_ERR(rv);
}
_type = EOS_SDC_TYPE_SDC2;
if (ocr[0] & 0xc0) _type |= EOS_SDC_CAP_BLK;
}
break;
case SDC_R1_IDLE_STATE | SDC_R1_ILLEGAL_CMD:
sdc_deselect();
rv = sdc_acmd(SD_APP_OP_COND, 0, 0, sdc_nto(start, timeout));
switch (rv) {
case SDC_R1_IDLE_STATE:
do {
rv = sdc_acmd(SD_APP_OP_COND, 0, 0, sdc_nto(start, timeout));
} while (rv == SDC_R1_IDLE_STATE);
if (rv != SDC_R1_READY) return SDC_ERR(rv);
case SDC_R1_READY:
_type = EOS_SDC_TYPE_SDC1;
break;
default:
do {
rv = sdc_cmd(SEND_OP_COND, 0, 0, sdc_nto(start, timeout));
} while (rv == SDC_R1_IDLE_STATE);
if (rv != SDC_R1_READY) return SDC_ERR(rv);
_type = EOS_SDC_TYPE_MMC;
break;
}
break;
default:
sdc_deselect();
return SDC_ERR(rv);
}
if (!(_type & EOS_SDC_CAP_BLK)) {
rv = sdc_cmd(SET_BLOCKLEN, 512, 0, sdc_nto(start, timeout));
if (rv != SDC_R1_READY) return SDC_ERR(rv);
}
if (_type & EOS_SDC_TYPE_SDC) {
uint8_t csd[16];
sdc_select();
rv = sdc_cmd(SEND_CSD, 0, SDC_CMD_FLAG_NOCS, sdc_nto(start, timeout));
if (rv == SDC_R1_READY) {
rv = sdc_block_read(csd, 16, sdc_nto(start, timeout));
} else {
rv = SDC_ERR(rv);
}
sdc_deselect();
if (rv) return rv;
for (i=0; i<16; i++) {
printf("%.2x ", csd[i]);
}
printf("\n");
if (csd[10] & 0x40) _type |= EOS_SDC_CAP_ERASE_EN;
}
eos_spi_set_div(EOS_SPI_DEV_SDC, 5);
sdc_type = _type;
return EOS_OK;
}
int eos_sdc_init(uint8_t wakeup_cause) {
int rv;
rv = eos_spi_select(EOS_SPI_DEV_SDC);
if (rv) return rv;
rv = sdc_init(5000);
if (rv) {
printf("SDC ERROR\n");
} else {
printf("SDC OK:%x\n", sdc_type);
}
eos_spi_deselect();
return EOS_OK;
}
uint8_t eos_sdc_type(void) {
return sdc_type & EOS_SDC_TYPE_MASK;
}
uint8_t eos_sdc_cap(void) {
return sdc_type & EOS_SDC_CAP_MASK;
}
int eos_sdc_get_sect_count(uint32_t timeout, uint32_t *sectors) {
int rv;
uint8_t csd[16];
uint32_t start;
start = eos_time_get_tick();
sdc_select();
rv = sdc_cmd(SEND_CSD, 0, SDC_CMD_FLAG_NOCS, timeout);
if (rv == SDC_R1_READY) {
rv = sdc_block_read(csd, 16, sdc_nto(start, timeout));
} else {
rv = SDC_ERR(rv);
}
sdc_deselect();
if (rv) return rv;
if ((csd[0] >> 6) == 1) { /* SDCv2 */
*sectors = (csd[9] + (csd[8] << 8) + ((csd[7] & 0x3f) << 16) + 1) << 10;
} else { /* SDCv1 or MMC*/
uint8_t n = (csd[5] & 0x0f) + (csd[10] >> 7) + ((csd[9] & 0x03) << 1) + 2;
*sectors = (csd[8] >> 6) + (csd[7] << 2) + ((csd[6] & 0x03) << 10) + 1;
*sectors = *sectors << (n - 9);
}
return EOS_OK;
}
int eos_sdc_get_blk_size(uint32_t timeout, uint32_t *size) {
int rv;
uint8_t rbl[64]; /* SD Status or CSD register */
uint32_t start;
start = eos_time_get_tick();
sdc_select();
if (sdc_type & EOS_SDC_TYPE_SDC2) {
rv = sdc_acmd(SD_STATUS, 0, SDC_CMD_FLAG_NOCS, timeout);
sdc_xchg8(0xff); /* R2 response */
} else {
rv = sdc_cmd(SEND_CSD, 0, SDC_CMD_FLAG_NOCS, timeout);
}
if (rv == SDC_R1_READY) {
rv = sdc_block_read(rbl, (sdc_type & EOS_SDC_TYPE_SDC2) ? 64 : 16, sdc_nto(start, timeout));
} else {
rv = SDC_ERR(rv);
}
sdc_deselect();
if (rv) return rv;
if (sdc_type & EOS_SDC_TYPE_SDC2) {
*size = 16UL << (rbl[10] >> 4);
} else if (sdc_type & EOS_SDC_TYPE_SDC1) {
*size = (((rbl[10] & 0x3f) << 1) + (rbl[11] >> 7) + 1) << ((rbl[13] >> 6) - 1);
} else {
*size = (((rbl[10] & 0x7c) >> 2) + 1) * (((rbl[11] & 0x03) << 3) + (rbl[11] >> 5) + 1);
}
return EOS_OK;
}
int eos_sdc_sync(uint32_t timeout) {
int rv;
sdc_select();
rv = sdc_ready(timeout);
sdc_deselect();
return rv;
}
int eos_sdc_erase(uint32_t blk_start, uint32_t blk_end, uint32_t timeout) {
int rv;
uint32_t start;
if (!(sdc_type & EOS_SDC_TYPE_SDC)) return EOS_ERR;
if (!(sdc_type & EOS_SDC_CAP_ERASE_EN)) return EOS_ERR;
if (!(sdc_type & EOS_SDC_CAP_BLK)) {
blk_start *= 512;
blk_end *= 512;
}
start = eos_time_get_tick();
rv = sdc_cmd(ERASE_WR_BLK_START, blk_start, 0, timeout);
if (rv != SDC_R1_READY) return SDC_ERR(rv);
rv = sdc_cmd(ERASE_WR_BLK_END, blk_end, 0, sdc_nto(start, timeout));
if (rv != SDC_R1_READY) return SDC_ERR(rv);
rv = sdc_cmd(ERASE, 0, 0, sdc_nto(start, timeout));
if (rv != SDC_R1_READY) return SDC_ERR(rv);
return eos_sdc_sync(sdc_nto(start, timeout));
}
int eos_sdc_sect_read(uint32_t sect, unsigned int count, uint8_t *buffer) {
int rv;
uint8_t cmd = ((count == 1) ? READ_SINGLE_BLOCK : READ_MULTIPLE_BLOCK);
if (!(sdc_type & EOS_SDC_CAP_BLK)) sect *= 512;
sdc_select();
rv = sdc_cmd(cmd, sect, SDC_CMD_FLAG_NOCS, SDC_TIMEOUT_CMD);
if (rv == SDC_R1_READY) {
int _rv = SDC_R1_READY;
while (count) {
rv = sdc_block_read(buffer, 512, SDC_TIMEOUT_READ);
if (rv) break;
eos_sdcc_decrypt(sect, buffer);
buffer += 512;
count--;
}
if (cmd == READ_MULTIPLE_BLOCK) _rv = sdc_cmd(STOP_TRANSMISSION, 0, SDC_CMD_FLAG_NOCS | SDC_CMD_FLAG_NOWAIT | SDC_CMD_FLAG_RSTUFF, 0);
if (!rv && (_rv != SDC_R1_READY)) rv = SDC_ERR(_rv);
} else {
rv = SDC_ERR(rv);
}
sdc_deselect();
return rv;
}
int eos_sdc_sect_write(uint32_t sect, unsigned int count, uint8_t *buffer) {
int rv;
if (!(sdc_type & EOS_SDC_CAP_BLK)) sect *= 512;
if (count == 1) {
sdc_select();
rv = sdc_cmd(WRITE_BLOCK, sect, SDC_CMD_FLAG_NOCS, SDC_TIMEOUT_CMD);
if (rv == SDC_R1_READY) {
eos_sdcc_encrypt(sect, buffer);
rv = sdc_block_write(SDC_TOKEN_START_BLK, buffer, 512, SDC_TIMEOUT_WRITE);
} else {
rv = SDC_ERR(rv);
}
sdc_deselect();
} else {
if (sdc_type & EOS_SDC_TYPE_SDC) {
rv = sdc_acmd(SET_WR_BLK_ERASE_COUNT, count, 0, SDC_TIMEOUT_CMD);
if (rv != SDC_R1_READY) return SDC_ERR(rv);
}
sdc_select();
rv = sdc_cmd(WRITE_MULTIPLE_BLOCK, sect, SDC_CMD_FLAG_NOCS, SDC_TIMEOUT_CMD);
if (rv == SDC_R1_READY) {
int _rv;
while (count) {
eos_sdcc_encrypt(sect, buffer);
rv = sdc_block_write(SDC_TOKEN_START_BLKM, buffer, 512, SDC_TIMEOUT_WRITE);
if (rv) break;
buffer += 512;
count--;
}
_rv = sdc_block_write(SDC_TOKEN_STOP_TRAN, NULL, 0, SDC_TIMEOUT_WRITE);
if (!rv && (_rv != SDC_R1_READY)) rv = SDC_ERR(_rv);
} else {
rv = SDC_ERR(rv);
}
sdc_deselect();
}
return rv;
}
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