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/*
io_m3cf.c based on
compact_flash.c
By chishm (Michael Chisholm)
Hardware Routines for reading a compact flash card
using the M3 Perfect CF Adapter
CF routines modified with help from Darkfader
This software is completely free. No warranty is provided.
If you use it, please give me credit and email me about your
project at chishm@hotmail.com
See gba_nds_fat.txt for help and license details.
*/
#include "io_m3cf.h"
#ifdef SUPPORT_M3CF
//---------------------------------------------------------------
// DMA
#ifdef _CF_USE_DMA
#ifndef NDS
#include "gba_dma.h"
#else
#include <nds/dma.h>
#ifdef ARM9
#include <nds/arm9/cache.h>
#endif
#endif
#endif
//---------------------------------------------------------------
// CF Addresses & Commands
#define GAME_PAK 0x08000000 // Game pack start address
// GBAMP CF Addresses
#define M3_REG_STS *(vu16*)(GAME_PAK + 0x000C0000) // Status of the CF Card / Device control
#define M3_REG_CMD *(vu16*)(GAME_PAK + 0x008E0000) // Commands sent to control chip and status return
#define M3_REG_ERR *(vu16*)(GAME_PAK + 0x00820000) // Errors / Features
#define M3_REG_SEC *(vu16*)(GAME_PAK + 0x00840000) // Number of sector to transfer
#define M3_REG_LBA1 *(vu16*)(GAME_PAK + 0x00860000) // 1st byte of sector address
#define M3_REG_LBA2 *(vu16*)(GAME_PAK + 0x00880000) // 2nd byte of sector address
#define M3_REG_LBA3 *(vu16*)(GAME_PAK + 0x008A0000) // 3rd byte of sector address
#define M3_REG_LBA4 *(vu16*)(GAME_PAK + 0x008C0000) // last nibble of sector address | 0xE0
#define M3_DATA (vu16*)(GAME_PAK + 0x00800000) // Pointer to buffer of CF data transered from card
// CF Card status
#define CF_STS_INSERTED 0x50
#define CF_STS_REMOVED 0x00
#define CF_STS_READY 0x58
#define CF_STS_DRQ 0x08
#define CF_STS_BUSY 0x80
// CF Card commands
#define CF_CMD_LBA 0xE0
#define CF_CMD_READ 0x20
#define CF_CMD_WRITE 0x30
#define CARD_TIMEOUT 10000000 // Updated due to suggestion from SaTa, otherwise card will timeout sometimes on a write
/*-----------------------------------------------------------------
M3CF_IsInserted
Is a compact flash card inserted?
bool return OUT: true if a CF card is inserted
-----------------------------------------------------------------*/
bool M3CF_IsInserted (void)
{
// Change register, then check if value did change
M3_REG_STS = CF_STS_INSERTED;
return ((M3_REG_STS & 0xff) == CF_STS_INSERTED);
}
/*-----------------------------------------------------------------
M3CF_ClearStatus
Tries to make the CF card go back to idle mode
bool return OUT: true if a CF card is idle
-----------------------------------------------------------------*/
bool M3CF_ClearStatus (void)
{
int i;
// Wait until CF card is finished previous commands
i=0;
while ((M3_REG_CMD & CF_STS_BUSY) && (i < CARD_TIMEOUT))
{
i++;
}
// Wait until card is ready for commands
i = 0;
while ((!(M3_REG_STS & CF_STS_INSERTED)) && (i < CARD_TIMEOUT))
{
i++;
}
if (i >= CARD_TIMEOUT)
return false;
return true;
}
/*-----------------------------------------------------------------
M3CF_ReadSectors
Read 512 byte sector numbered "sector" into "buffer"
u32 sector IN: address of first 512 byte sector on CF card to read
u8 numSecs IN: number of 512 byte sectors to read,
1 to 256 sectors can be read, 0 = 256
void* buffer OUT: pointer to 512 byte buffer to store data in
bool return OUT: true if successful
-----------------------------------------------------------------*/
bool M3CF_ReadSectors (u32 sector, u8 numSecs, void* buffer)
{
int i;
int j = (numSecs > 0 ? numSecs : 256);
u16 *buff = (u16*)buffer;
#ifdef _CF_ALLOW_UNALIGNED
u8 *buff_u8 = (u8*)buffer;
int temp;
#endif
#if defined _CF_USE_DMA && defined NDS && defined ARM9
DC_FlushRange( buffer, j * BYTE_PER_READ);
#endif
// Wait until CF card is finished previous commands
i=0;
while ((M3_REG_CMD & CF_STS_BUSY) && (i < CARD_TIMEOUT))
{
i++;
}
// Wait until card is ready for commands
i = 0;
while ((!(M3_REG_STS & CF_STS_INSERTED)) && (i < CARD_TIMEOUT))
{
i++;
}
if (i >= CARD_TIMEOUT)
return false;
// Set number of sectors to read
M3_REG_SEC = numSecs;
// Set read sector
M3_REG_LBA1 = sector & 0xFF; // 1st byte of sector number
M3_REG_LBA2 = (sector >> 8) & 0xFF; // 2nd byte of sector number
M3_REG_LBA3 = (sector >> 16) & 0xFF; // 3rd byte of sector number
M3_REG_LBA4 = ((sector >> 24) & 0x0F )| CF_CMD_LBA; // last nibble of sector number
// Set command to read
M3_REG_CMD = CF_CMD_READ;
while (j--)
{
// Wait until card is ready for reading
i = 0;
while (((M3_REG_STS & 0xff) != CF_STS_READY) && (i < CARD_TIMEOUT))
{
i++;
}
if (i >= CARD_TIMEOUT)
return false;
// Read data
#ifdef _CF_USE_DMA
#ifdef NDS
DMA3_SRC = (u32)M3_DATA;
DMA3_DEST = (u32)buff;
DMA3_CR = 256 | DMA_COPY_HALFWORDS | DMA_SRC_FIX;
#else
DMA3COPY ( M3_DATA, buff, 256 | DMA16 | DMA_ENABLE | DMA_SRC_FIXED);
#endif
buff += BYTE_PER_READ / 2;
#elif defined _CF_ALLOW_UNALIGNED
i=256;
if ((u32)buff_u8 & 0x01) {
while(i--)
{
temp = *M3_DATA;
*buff_u8++ = temp & 0xFF;
*buff_u8++ = temp >> 8;
}
} else {
while(i--)
*buff++ = *M3_DATA;
}
#else
i=256;
while(i--)
*buff++ = *M3_DATA;
#endif
}
#if defined _CF_USE_DMA && defined NDS
// Wait for end of transfer before returning
while(DMA3_CR & DMA_BUSY);
#endif
return true;
}
/*-----------------------------------------------------------------
M3CF_WriteSectors
Write 512 byte sector numbered "sector" from "buffer"
u32 sector IN: address of 512 byte sector on CF card to read
u8 numSecs IN: number of 512 byte sectors to read,
1 to 256 sectors can be read, 0 = 256
void* buffer IN: pointer to 512 byte buffer to read data from
bool return OUT: true if successful
-----------------------------------------------------------------*/
bool M3CF_WriteSectors (u32 sector, u8 numSecs, void* buffer)
{
int i;
int j = (numSecs > 0 ? numSecs : 256);
u16 *buff = (u16*)buffer;
#ifdef _CF_ALLOW_UNALIGNED
u8 *buff_u8 = (u8*)buffer;
int temp;
#endif
#if defined _CF_USE_DMA && defined NDS && defined ARM9
DC_FlushRange( buffer, j * BYTE_PER_READ);
#endif
// Wait until CF card is finished previous commands
i=0;
while ((M3_REG_CMD & CF_STS_BUSY) && (i < CARD_TIMEOUT))
{
i++;
}
// Wait until card is ready for commands
i = 0;
while ((!(M3_REG_STS & CF_STS_INSERTED)) && (i < CARD_TIMEOUT))
{
i++;
}
if (i >= CARD_TIMEOUT)
return false;
// Set number of sectors to write
M3_REG_SEC = numSecs;
// Set write sector
M3_REG_LBA1 = sector & 0xFF; // 1st byte of sector number
M3_REG_LBA2 = (sector >> 8) & 0xFF; // 2nd byte of sector number
M3_REG_LBA3 = (sector >> 16) & 0xFF; // 3rd byte of sector number
M3_REG_LBA4 = ((sector >> 24) & 0x0F )| CF_CMD_LBA; // last nibble of sector number
// Set command to write
M3_REG_CMD = CF_CMD_WRITE;
while (j--)
{
// Wait until card is ready for writing
i = 0;
while (((M3_REG_STS & 0xff) != CF_STS_READY) && (i < CARD_TIMEOUT))
{
i++;
}
if (i >= CARD_TIMEOUT)
return false;
// Write data
#ifdef _CF_USE_DMA
#ifdef NDS
DMA3_SRC = (u32)buff;
DMA3_DEST = (u32)M3_DATA;
DMA3_CR = 256 | DMA_COPY_HALFWORDS | DMA_DST_FIX;
#else
DMA3COPY( buff, M3_DATA, 256 | DMA16 | DMA_ENABLE | DMA_DST_FIXED);
#endif
buff += BYTE_PER_READ / 2;
#elif defined _CF_ALLOW_UNALIGNED
i=256;
if ((u32)buff_u8 & 0x01) {
while(i--)
{
temp = *buff_u8++;
temp |= *buff_u8++ << 8;
*M3_DATA = temp;
}
} else {
while(i--)
*M3_DATA = *buff++;
}
#else
i=256;
while(i--)
*M3_DATA = *buff++;
#endif
}
#if defined _CF_USE_DMA && defined NDS
// Wait for end of transfer before returning
while(DMA3_CR & DMA_BUSY);
#endif
return true;
}
/*-----------------------------------------------------------------
M3_Unlock
Returns true if M3 was unlocked, false if failed
Added by MightyMax
-----------------------------------------------------------------*/
bool M3_Unlock(void)
{
// run unlock sequence
volatile unsigned short tmp ;
tmp = *(volatile unsigned short *)0x08000000 ;
tmp = *(volatile unsigned short *)0x08E00002 ;
tmp = *(volatile unsigned short *)0x0800000E ;
tmp = *(volatile unsigned short *)0x08801FFC ;
tmp = *(volatile unsigned short *)0x0800104A ;
tmp = *(volatile unsigned short *)0x08800612 ;
tmp = *(volatile unsigned short *)0x08000000 ;
tmp = *(volatile unsigned short *)0x08801B66 ;
tmp = *(volatile unsigned short *)0x08800006 ;
tmp = *(volatile unsigned short *)0x08000000 ;
// test that we have register access
tmp = M3_REG_LBA1;
M3_REG_LBA1 = (~tmp & 0xFF);
tmp = (~tmp & 0xFF);
// did it change?
return (M3_REG_LBA1 == tmp) ;
}
bool M3CF_Shutdown(void) {
return M3CF_ClearStatus() ;
} ;
bool M3CF_StartUp(void) {
return M3_Unlock() ;
} ;
IO_INTERFACE io_m3cf = {
DEVICE_TYPE_M3CF,
FEATURE_MEDIUM_CANREAD | FEATURE_MEDIUM_CANWRITE | FEATURE_SLOT_GBA,
(FN_MEDIUM_STARTUP)&M3CF_StartUp,
(FN_MEDIUM_ISINSERTED)&M3CF_IsInserted,
(FN_MEDIUM_READSECTORS)&M3CF_ReadSectors,
(FN_MEDIUM_WRITESECTORS)&M3CF_WriteSectors,
(FN_MEDIUM_CLEARSTATUS)&M3CF_ClearStatus,
(FN_MEDIUM_SHUTDOWN)&M3CF_Shutdown
} ;
LPIO_INTERFACE M3CF_GetInterface(void) {
return &io_m3cf ;
} ;
#endif // SUPPORT_M3CF
|
