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ttio: update from DLDI source

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Fixes issues on R4iTT DSTT-based carts which have a weird quirk
This commit is contained in:
lifehackerhansol 2024-11-04 11:06:41 -08:00
parent c310511fe2
commit 5c632b58f5
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GPG Key ID: 80FB184AFC0B3B0E
2 changed files with 164 additions and 162 deletions
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228
arm9/source/launcher/ttio/scdssdhc.c
View File

@ -1,5 +1,3 @@
// clang-format off
/*
SuperCard DSONE
Card IO routines
@ -15,85 +13,105 @@
u32 SCDS_isSDHC = 0;
static void SCDS_ReadCardData(u64 command, u32 flags, void *buffer, u32 length)
static u32 SCDS_SDHostSetMode(u8 sdio, u32 parameter, u8 response_type, u32 latency)
{
u64 command = ((u64)SCDS_CMD_SD_HOST_PARAM << 56) | ((u64)parameter << 24) | ((u64)sdio << 16) | ((u64)response_type << 8);
card_romSetCmd(command);
card_romStartXfer(flags, false);
card_romStartXfer(SCDS_CTRL_READ_4B | MCCNT1_LATENCY1(latency), false);
card_romWaitDataReady();
return card_romGetData();
}
static u32 SCDS_IsSDHostBusy(void)
{
REG_SCDS_MCCMD[0] = SCDS_CMD_SD_HOST_BUSY;
card_romStartXfer(SCDS_CTRL_READ_4B, false);
card_romWaitDataReady();
return card_romGetData();
}
static u32 SCDS_SDHostGetResponse(void)
{
REG_SCDS_MCCMD[0] = SCDS_CMD_SD_HOST_RESPONSE;
card_romStartXfer(SCDS_CTRL_READ_4B, false);
card_romWaitDataReady();
return __builtin_bswap32(card_romGetData());
}
static void SCDS_SDSendR0Command(u8 sdio, u32 parameter, u32 latency)
{
SCDS_SDHostSetMode(sdio, parameter, SCDS_SD_HOST_NORESPONSE, latency);
while(SCDS_IsSDHostBusy());
}
static u32 SCDS_SDSendR1Command(u8 sdio, u32 parameter, u32 latency)
{
SCDS_SDHostSetMode(sdio, parameter, SCDS_SD_HOST_READ_4B, latency);
while(SCDS_IsSDHostBusy());
return SCDS_SDHostGetResponse();
}
// TODO: save the response to a buffer (also figure out in which order they're sent)
static void SCDS_SDSendR2Command(u8 sdio, u32 parameter, u32 latency)
{
SCDS_SDHostSetMode(sdio, parameter, SCDS_SD_HOST_READ_4B_MULTI, latency);
while(SCDS_IsSDHostBusy());
// TODO: parse this response
SCDS_SDHostGetResponse();
for(int i=0; i < 4; i++)
{
SCDS_SDHostSetMode(sdio, parameter, SCDS_SD_HOST_NEXT_4B, latency);
while(SCDS_IsSDHostBusy());
// TODO: parse this response
SCDS_SDHostGetResponse();
}
SCDS_SDHostSetMode(sdio, parameter, SCDS_SD_HOST_SEND_STOP_CLK, 0);
while(SCDS_IsSDHostBusy());
}
void waitByLoop(u32 count);
static void SCDS_SDHostSetRegister(u8 bits)
{
u64 command = ((u64)SCDS_CMD_SD_HOST_SET_REGISTER << 56) | ((u64)(0x30 | bits) << 48);
card_romSetCmd(command);
card_romStartXfer(SCDS_CTRL_READ_4B, false);
card_romWaitDataReady();
card_romGetData();
waitByLoop(0x300);
}
static u32 SCDS_IsSDFIFOBusy(void) {
REG_SCDS_MCCMD[0] = SCDS_CMD_FIFO_BUSY;
card_romStartXfer(SCDS_CTRL_READ_4B, false);
card_romWaitDataReady();
return card_romGetData();
}
// Reads max 512 bytes
static void SCDS_SDFIFOReadData(void *buffer, u32 length)
{
REG_SCDS_MCCMD[0] = SCDS_CMD_FIFO_READ_DATA;
card_romStartXfer(SCDS_CTRL_READ_512B, false);
if ((u32)buffer & 3)
card_romCpuReadUnaligned((u8 *)buffer, length);
else
card_romCpuRead(buffer, length);
}
static void SCDS_WriteCardData(u64 command, u32 flags, const void *buffer, u32 length)
// Writes max 512 bytes
static void SCDS_SDFIFOWriteData(const void *buffer, u32 length)
{
card_romSetCmd(command);
card_romStartXfer(flags, false);
REG_SCDS_MCCMD[0] = SCDS_CMD_FIFO_WRITE_DATA;
card_romStartXfer(SCDS_CTRL_WRITE_512B, false);
if ((u32)buffer & 3)
card_romCpuWriteUnaligned((u8 *)buffer, length);
else
card_romCpuWrite(buffer, length);
}
static u32 SCDS_IsSDHostBusy(void)
{
return SCDS_SendCommand(SCDS_CMD_SD_HOST_BUSY, 0);
}
static void SCDS_SDSendR0Command(u8 sdio, u32 parameter, u32 latency)
{
SCDS_SendCommand(SCDS_CMD_SD_HOST_PARAM(sdio, parameter, SCDS_SD_HOST_NORESPONSE), latency);
while(SCDS_IsSDHostBusy());
}
static u32 SCDS_SDSendR1Command(u8 sdio, u32 parameter, u32 latency)
{
SCDS_SendCommand(SCDS_CMD_SD_HOST_PARAM(sdio, parameter, SCDS_SD_HOST_READ_4B), latency);
while(SCDS_IsSDHostBusy());
return __builtin_bswap32(SCDS_SendCommand(SCDS_CMD_SD_HOST_RESPONSE, 0));
}
// TODO: save the response to a buffer (also figure out in which order they're sent)
static void SCDS_SDSendR2Command(u8 sdio, u32 parameter, u32 latency)
{
SCDS_SendCommand(SCDS_CMD_SD_HOST_PARAM(sdio, parameter, SCDS_SD_HOST_READ_4B_MULTI), latency);
while(SCDS_IsSDHostBusy());
// TODO: parse this response
SCDS_SendCommand(SCDS_CMD_SD_HOST_RESPONSE, 0);
for(int i=0; i < 4; i++)
{
SCDS_SendCommand(SCDS_CMD_SD_HOST_PARAM(sdio, parameter, SCDS_SD_HOST_NEXT_4B), latency);
while(SCDS_IsSDHostBusy());
// TODO: parse this response
SCDS_SendCommand(SCDS_CMD_SD_HOST_RESPONSE, 0);
}
SCDS_SendCommand(SCDS_CMD_SD_HOST_PARAM(sdio, parameter, SCDS_SD_HOST_SEND_STOP_CLK), 0);
while(SCDS_IsSDHostBusy());
}
void waitByLoop(u32 count);
static void SCDS_SDSetHostRegister(u8 bits)
{
SCDS_SendCommand(SCDS_CMD_SD_HOST_SET_REGISTER(bits), 0);
waitByLoop(0x300);
}
void SCDS_SDGetSDHCStatusFromSRAM(void)
{
SCDS_isSDHC = SCDS_SendCommand(SCDS_CMD_SRAM_READ_DATA(0x7F9E0), 0) != 0 ? 1 : 0;
}
u32 SCDS_SendCommand(const u64 command, u32 latency)
{
card_romSetCmd(command);
card_romStartXfer(SCDS_CTRL_READ_4B | MCCNT1_LATENCY1(latency), false);
card_romWaitDataReady();
return card_romGetData();
}
bool SCDS_SDInitialize(void)
{
u32 isSD20 = 0;
@ -102,35 +120,38 @@ bool SCDS_SDInitialize(void)
SCDS_isSDHC = 0;
// TODO: What is this command doing?
SCDS_ReadCardData(0x6600000000000000ull, 0xA7586000, &response, 1);
card_romSetCmd(0x6600000000000000ull);
card_romStartXfer(0xA7586000, false);
card_romWaitDataReady();
card_romGetData();
// Reset SD host
SCDS_SDSetHostRegister(0);
SCDS_SDHostSetRegister(0);
// Init
SCDS_SDSetHostRegister(SCDS_SD_HOST_REG_RESET | SCDS_SD_HOST_REG_400KHZ_CLK | SCDS_SD_HOST_REG_CLEAN_ROM_MODE);
SCDS_SendCommand(SCDS_CMD_SD_HOST_PARAM(0, 0, SCDS_SD_HOST_SEND_CLK), SCDS_CTRL_SD_LOW_CLK_LATENCY);
SCDS_SDHostSetRegister(SCDS_SD_HOST_REG_RESET | SCDS_SD_HOST_REG_400KHZ_CLK | SCDS_SD_HOST_REG_CLEAN_ROM_MODE);
SCDS_SDHostSetMode(0, 0, SCDS_SD_HOST_SEND_CLK, SCDS_CTRL_SD_LOW_CLK_LATENCY);
waitByLoop(0x1000);
// CMD0
SCDS_SDSendR0Command(0, 0, SCDS_CTRL_SD_LOW_CLK_LATENCY);
SCDS_SendCommand(SCDS_CMD_SD_HOST_PARAM(0, 0, SCDS_SD_HOST_SEND_STOP_CLK), SCDS_CTRL_SD_LOW_CLK_LATENCY);
SCDS_SDHostSetMode(0, 0, SCDS_SD_HOST_SEND_STOP_CLK, SCDS_CTRL_SD_LOW_CLK_LATENCY);
// CMD8
SCDS_SendCommand(SCDS_CMD_SD_HOST_PARAM(8, 0x1AA, SCDS_SD_HOST_READ_4B), SCDS_CTRL_SD_LOW_CLK_LATENCY);
SCDS_SDHostSetMode(8, 0x1AA, SCDS_SD_HOST_READ_4B, SCDS_CTRL_SD_LOW_CLK_LATENCY);
u32 retryCount = 9999;
while(1)
{
if(!SCDS_IsSDHostBusy())
{
response = __builtin_bswap32(SCDS_SendCommand(SCDS_CMD_SD_HOST_RESPONSE, 0));
response = SCDS_SDHostGetResponse();
break;
}
if (--retryCount == 0)
{
SCDS_SDSetHostRegister(0);
SCDS_SDSetHostRegister(SCDS_SD_HOST_REG_RESET | SCDS_SD_HOST_REG_400KHZ_CLK | SCDS_SD_HOST_REG_CLEAN_ROM_MODE);
SCDS_SDHostSetRegister(0);
SCDS_SDHostSetRegister(SCDS_SD_HOST_REG_RESET | SCDS_SD_HOST_REG_400KHZ_CLK | SCDS_SD_HOST_REG_CLEAN_ROM_MODE);
response = 0;
break;
}
@ -142,18 +163,18 @@ bool SCDS_SDInitialize(void)
do
{
// CMD55
SCDS_SendCommand(SCDS_CMD_SD_HOST_PARAM(55, 0, SCDS_SD_HOST_READ_4B), SCDS_CTRL_SD_LOW_CLK_LATENCY);
SCDS_SDHostSetMode(55, 0, SCDS_SD_HOST_READ_4B, SCDS_CTRL_SD_LOW_CLK_LATENCY);
retryCount = 9999;
while(SCDS_IsSDHostBusy())
{
if (--retryCount == 0)
{
SCDS_SDSetHostRegister(0);
SCDS_SDSetHostRegister(SCDS_SD_HOST_REG_RESET | SCDS_SD_HOST_REG_400KHZ_CLK | SCDS_SD_HOST_REG_CLEAN_ROM_MODE);
SCDS_SDHostSetRegister(0);
SCDS_SDHostSetRegister(SCDS_SD_HOST_REG_RESET | SCDS_SD_HOST_REG_400KHZ_CLK | SCDS_SD_HOST_REG_CLEAN_ROM_MODE);
return false;
}
}
SCDS_SendCommand(SCDS_CMD_SD_HOST_RESPONSE, 0);
SCDS_SDHostGetResponse();
// ACMD41
u32 parameter = 0x00FC0000;
@ -181,43 +202,49 @@ bool SCDS_SDInitialize(void)
// CMD16
SCDS_SDSendR1Command(16, 512, SCDS_CTRL_SD_LOW_CLK_LATENCY);
SCDS_SDSetHostRegister(0);
SCDS_SDSetHostRegister(SCDS_SD_HOST_REG_RESET | SCDS_SD_HOST_REG_CLEAN_ROM_MODE);
SCDS_SDHostSetRegister(0);
SCDS_SDHostSetRegister(SCDS_SD_HOST_REG_RESET | SCDS_SD_HOST_REG_CLEAN_ROM_MODE);
if(SCDS_isSDHC)
SCDS_SDSetHostRegister(SCDS_SD_HOST_REG_RESET | SCDS_SD_HOST_REG_CLEAN_ROM_MODE | SCDS_SD_HOST_REG_SDHC);
SCDS_SDHostSetRegister(SCDS_SD_HOST_REG_RESET | SCDS_SD_HOST_REG_CLEAN_ROM_MODE | SCDS_SD_HOST_REG_SDHC);
return true;
}
void SCDS_SDReadSingleSector(u32 sector, void *buffer)
{
// instruct cart what to read
SCDS_SendCommand(SCDS_CMD_SD_READ_SINGLE_BLOCK(SCDS_isSDHC ? sector : sector << 9), 0);
u64 command = ((u64)SCDS_CMD_SD_READ_SINGLE_BLOCK << 56) | ((u64)(SCDS_isSDHC ? sector : sector << 9) << 24);
card_romSetCmd(command);
card_romStartXfer(SCDS_CTRL_READ_4B, false);
card_romWaitDataReady();
card_romGetData();
// wait until data ready
while(SCDS_SendCommand(SCDS_CMD_FIFO_BUSY, 0));
while(SCDS_IsSDFIFOBusy());
// retrieve data
SCDS_ReadCardData(SCDS_CMD_FIFO_READ_DATA, SCDS_CTRL_READ_512B, buffer, 128);
SCDS_SDFIFOReadData(buffer, 128);
}
void SCDS_SDReadMultiSector(u32 sector, void *buffer, u32 num_sectors)
{
// instruct cart what to read
SCDS_SendCommand(SCDS_CMD_SD_READ_MULTI_BLOCK(SCDS_isSDHC ? sector : sector << 9), 0);
u64 command = ((u64)SCDS_CMD_SD_READ_MULTI_BLOCK << 56) | ((u64)(SCDS_isSDHC ? sector : sector << 9) << 24);
card_romSetCmd(command);
card_romStartXfer(SCDS_CTRL_READ_4B, false);
card_romWaitDataReady();
card_romGetData();
while(1)
{
// wait until data ready
while(SCDS_SendCommand(SCDS_CMD_FIFO_BUSY, 0));
while(SCDS_IsSDFIFOBusy());
// retrieve data
SCDS_ReadCardData(SCDS_CMD_FIFO_READ_DATA, SCDS_CTRL_READ_512B, buffer, 128);
SCDS_SDFIFOReadData(buffer, 128);
buffer = (u8 *)buffer + 0x200;
num_sectors--;
if(num_sectors == 0)
break;
SCDS_SendCommand(SCDS_CMD_SD_HOST_PARAM(0, 0, SCDS_SD_HOST_NEXT_DATABLOCK), 0);
SCDS_SDHostSetMode(0, 0, SCDS_SD_HOST_NEXT_DATABLOCK, 0);
};
// end read
@ -230,11 +257,14 @@ void SCDS_SDWriteSingleSector(u32 sector, const void *buffer)
SCDS_SDSendR1Command(24, SCDS_isSDHC ? sector : sector << 9, 0);
// write
SCDS_WriteCardData(SCDS_CMD_FIFO_WRITE_DATA, SCDS_CTRL_WRITE_512B, buffer, 128);
SCDS_SDFIFOWriteData(buffer, 128);
while(SCDS_IsSDHostBusy());
// end write
SCDS_SendCommand(SCDS_CMD_SD_WRITE_END, 0);
REG_SCDS_MCCMD[0] = SCDS_CMD_SD_WRITE_END;
card_romStartXfer(SCDS_CTRL_READ_4B, false);
card_romWaitDataReady();
card_romGetData();
while(SCDS_IsSDHostBusy());
}
@ -247,16 +277,22 @@ void SCDS_SDWriteMultiSector(u32 sector, const void *buffer, u32 num_sectors)
// end write
// well, it's supposed to be end write. But doing it first is a no-op, and it's also
// a little simpler to write this way
SCDS_SendCommand(SCDS_CMD_SD_WRITE_END, 0);
REG_SCDS_MCCMD[0] = SCDS_CMD_SD_WRITE_END;
card_romStartXfer(SCDS_CTRL_READ_4B, false);
card_romWaitDataReady();
card_romGetData();
while(SCDS_IsSDHostBusy());
// write
SCDS_WriteCardData(SCDS_CMD_FIFO_WRITE_DATA, SCDS_CTRL_WRITE_512B, buffer, 128);
SCDS_SDFIFOWriteData(buffer, 128);
while(SCDS_IsSDHostBusy());
buffer = (u8 *)buffer + 0x200;
}
// *really* end write
SCDS_SDSendR1Command(12, 0, 0);
SCDS_SendCommand(SCDS_CMD_SD_WRITE_END, 0);
REG_SCDS_MCCMD[0] = SCDS_CMD_SD_WRITE_END;
card_romStartXfer(SCDS_CTRL_READ_4B, false);
card_romWaitDataReady();
card_romGetData();
while(SCDS_IsSDHostBusy());
}

96
arm9/source/launcher/ttio/scdssdhc.h
View File

@ -1,5 +1,3 @@
// clang-format off
/*
SuperCard DSONE
Card IO routines
@ -17,11 +15,16 @@ extern "C" {
#endif
#include <nds/ndstypes.h>
#include "libtwl_card.h"
#ifndef NULL
#define NULL 0
#endif
// libtwl workaround
// Certain DSTT clones need bytewise access to MCCMD
#define REG_SCDS_MCCMD ((vu8*)&REG_MCCMD0)
// SCDS defines
// SCDS ROMCTRL flags
#define SCDS_CTRL_BASE (MCCNT1_ENABLE | MCCNT1_RESET_OFF | MCCNT1_LATENCY2(24) | MCCNT1_LATENCY1(0))
@ -42,52 +45,32 @@ extern "C" {
AA = command
BBBBBBBB = address
*/
static inline u64 SCDS_CMD_SRAM_READ_DATA(u32 address)
{
return (0x70ull << 56) | ((u64)address << 24);
}
static inline u64 SCDS_CMD_SRAM_WRITE_DATA(u32 address)
{
return (0x71ull << 56) | ((u64)address << 24);
}
/*
This address in SRAM *usually* contains a bool for SD or SDHC
While not exactly reliable, the original driver did it, so here goes
return 0 == SD
return non-0 == SDHC
*/
static inline u64 SCDS_CMD_SD_IS_SDHC(void)
{
return SCDS_CMD_SRAM_READ_DATA(0x7F9E0);
}
#define SCDS_CMD_SRAM_READ_DATA (0x70)
#define SCDS_CMD_SRAM_WRITE_DATA (0x71)
// FIFO commands
#define SCDS_CMD_FIFO_BUSY (0x80ull << 56)
#define SCDS_CMD_FIFO_READ_DATA (0x81ull << 56)
#define SCDS_CMD_FIFO_WRITE_DATA (0x82ull << 56)
#define SCDS_CMD_FIFO_BUSY (0x80)
#define SCDS_CMD_FIFO_READ_DATA (0x81)
#define SCDS_CMD_FIFO_WRITE_DATA (0x82)
/*
SD host modes
Used with 0x51 command, see below
*/
enum SCDS_SD_HOST_MODES {
SCDS_SD_HOST_NORESPONSE = 0ull,
SCDS_SD_HOST_READ_4B = 1ull,
SCDS_SD_HOST_READ_4B_MULTI = 2ull, // use mode 3 to continue this read
SCDS_SD_HOST_NEXT_4B = 3ull,
SCDS_SD_HOST_SEND_CLK = 4ull,
SCDS_SD_HOST_SEND_STOP_CLK = 5ull,
SCDS_SD_HOST_READ_DATABLOCK = 6ull,
SCDS_SD_HOST_NEXT_DATABLOCK = 7ull,
SCDS_SD_HOST_CMD17_READ_DATA = 8ull, // Send SDIO CMD17 & read data
SCDS_SD_HOST_CMD18_READ_DATA = 9ull, // Send SDIO CMD18 & read data until stop
SCDS_SD_HOST_COMMIT_FIFO_DATA = 0xAull, // commit data in FIFO to SD card
SCDS_SD_HOST_CMD24_WRITE_DATA = 0xBull, // Send SDIO CMD24 & send data in SRAM buffer
SCDS_SD_HOST_WAIT_BUSY = 0xCull // wait until data transfer ends
SCDS_SD_HOST_NORESPONSE = 0,
SCDS_SD_HOST_READ_4B = 1,
SCDS_SD_HOST_READ_4B_MULTI = 2, // use mode 3 to continue this read
SCDS_SD_HOST_NEXT_4B = 3,
SCDS_SD_HOST_SEND_CLK = 4,
SCDS_SD_HOST_SEND_STOP_CLK = 5,
SCDS_SD_HOST_READ_DATABLOCK = 6,
SCDS_SD_HOST_NEXT_DATABLOCK = 7,
SCDS_SD_HOST_CMD17_READ_DATA = 8, // Send SDIO CMD17 & read data
SCDS_SD_HOST_CMD18_READ_DATA = 9, // Send SDIO CMD18 & read data until stop
SCDS_SD_HOST_COMMIT_FIFO_DATA = 0xA, // commit data in FIFO to SD card
SCDS_SD_HOST_CMD24_WRITE_DATA = 0xB, // Send SDIO CMD24 & send data in SRAM buffer
SCDS_SD_HOST_WAIT_BUSY = 0xC // wait until data transfer ends
};
/*
@ -103,34 +86,22 @@ enum SCDS_SD_HOST_MODES {
BB = SDIO command
CC = SD host mode, see SCDS_SD_HOST_MODES enum
*/
static inline u64 SCDS_CMD_SD_HOST_PARAM(u8 sdio, u32 parameter, u8 mode)
{
return (0x51ull << 56) | ((u64)parameter << 24) | ((u64)sdio << 16) | ((u64)mode << 8);
}
#define SCDS_CMD_SD_HOST_PARAM (0x51)
// SD host misc commands
// return 0 == idle
// return non-0 == not idle
#define SCDS_CMD_SD_HOST_BUSY (0x50ull << 56)
#define SCDS_CMD_SD_HOST_BUSY (0x50)
// Gets response of SD_HOST commands, if the sent mode is 1 or 2
#define SCDS_CMD_SD_HOST_RESPONSE (0x52ull << 56)
#define SCDS_CMD_SD_HOST_RESPONSE (0x52)
// Stops SD host data transfer
#define SCDS_CMD_SD_WRITE_END (0x56ull << 56)
#define SCDS_CMD_SD_WRITE_END (0x56)
// Sends CMD17
// This is effectively 0x51/0x50/0x52 rolled into one command
static inline u64 SCDS_CMD_SD_READ_SINGLE_BLOCK(u32 sector)
{
return (0x53ull << 56) | ((u64)sector << 24);
}
#define SCDS_CMD_SD_READ_SINGLE_BLOCK (0x53)
// Sends CMD18
// This is effectively 0x51/0x50/0x52 rolled into one command
static inline u64 SCDS_CMD_SD_READ_MULTI_BLOCK(u32 sector)
{
return (0x54ull << 56) | ((u64)sector << 24);
}
#define SCDS_CMD_SD_READ_MULTI_BLOCK (0x54)
/*
SD host control registers
@ -148,15 +119,10 @@ static inline u64 SCDS_CMD_SD_READ_MULTI_BLOCK(u32 sector)
#define SCDS_SD_HOST_REG_CLEAN_ROM_MODE BIT(2)
#define SCDS_SD_HOST_REG_SDHC BIT(3)
// This function will always set bits 4-5 to 1 and bits 6-7 to 0 for convenience
static inline u64 SCDS_CMD_SD_HOST_SET_REGISTER(u8 bits)
{
return (0x5F30ull << 48) | ((u64)bits << 48);
}
// Command to write to host register
#define SCDS_CMD_SD_HOST_SET_REGISTER (0x5F)
// user API
u32 SCDS_SendCommand(const u64 command, u32 latency);
void SCDS_SDGetSDHCStatusFromSRAM(void);
bool SCDS_SDInitialize(void);
void SCDS_SDReadSingleSector(u32 sector, void *buffer);
void SCDS_SDReadMultiSector(u32 sector, void *buffer, u32 num_sectors);