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|
/*
Copyright 2016-2022 melonDS team
This file is part of melonDS.
melonDS 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, either version 3 of the License, or (at your option)
any later version.
melonDS is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with melonDS. If not, see http://www.gnu.org/licenses/.
*/
#include <stdio.h>
#include <string.h>
#include "DSi.h"
#include "DSi_SD.h"
#include "DSi_NWifi.h"
#include "Platform.h"
// observed IRQ behavior during transfers
//
// during reads:
// * bit23 is cleared during the first block, always set otherwise. weird
// * bit24 (RXRDY) gets set when the FIFO is full
//
// during reads with FIFO32:
// * FIFO16 drains directly into FIFO32
// * when bit24 is set, FIFO32 is already full (with contents from the other FIFO)
// * reading from an empty FIFO just wraps around (and sets bit21)
// * FIFO32 starts filling when bit24 would be set?
//
//
// TX:
// * when sending command, if current FIFO full
// * upon ContinueTransfer(), if current FIFO full
// * -> upon DataTX() if current FIFO full
// * when filling FIFO
#define SD_DESC Num?"SDIO":"SD/MMC"
DSi_SDHost::DSi_SDHost(u32 num)
{
Num = num;
Ports[0] = nullptr;
Ports[1] = nullptr;
}
DSi_SDHost::~DSi_SDHost()
{
if (Ports[0]) delete Ports[0];
if (Ports[1]) delete Ports[1];
}
void DSi_SDHost::CloseHandles()
{
if (Ports[0]) delete Ports[0];
if (Ports[1]) delete Ports[1];
Ports[0] = nullptr;
Ports[1] = nullptr;
}
void DSi_SDHost::Reset()
{
if (Num == 0)
{
PortSelect = 0x0200; // CHECKME
}
else
{
PortSelect = 0x0100; // CHECKME
}
SoftReset = 0x0007; // CHECKME
SDClock = 0;
SDOption = 0;
Command = 0;
Param = 0;
memset(ResponseBuffer, 0, sizeof(ResponseBuffer));
DataFIFO[0].Clear();
DataFIFO[1].Clear();
CurFIFO = 0;
DataFIFO32.Clear();
IRQStatus = 0;
IRQMask = 0x8B7F031D;
CardIRQStatus = 0;
CardIRQMask = 0xC007;
CardIRQCtl = 0;
DataCtl = 0;
Data32IRQ = 0;
DataMode = 0;
BlockCount16 = 0; BlockCount32 = 0; BlockCountInternal = 0;
BlockLen16 = 0; BlockLen32 = 0;
StopAction = 0;
TXReq = false;
CloseHandles();
if (Num == 0)
{
DSi_MMCStorage* sd;
DSi_MMCStorage* mmc;
if (Platform::GetConfigBool(Platform::DSiSD_Enable))
{
std::string folderpath;
if (Platform::GetConfigBool(Platform::DSiSD_FolderSync))
folderpath = Platform::GetConfigString(Platform::DSiSD_FolderPath);
else
folderpath = "";
sd = new DSi_MMCStorage(this,
false,
Platform::GetConfigString(Platform::DSiSD_ImagePath),
(u64)Platform::GetConfigInt(Platform::DSiSD_ImageSize) * 1024 * 1024,
Platform::GetConfigBool(Platform::DSiSD_ReadOnly),
folderpath);
u8 sd_cid[16] = {0xBD, 0x12, 0x34, 0x56, 0x78, 0x03, 0x4D, 0x30, 0x30, 0x46, 0x50, 0x41, 0x00, 0x00, 0x15, 0x00};
sd->SetCID(sd_cid);
}
else
sd = nullptr;
mmc = new DSi_MMCStorage(this, true, Platform::GetConfigString(Platform::DSi_NANDPath));
mmc->SetCID(DSi::eMMC_CID);
Ports[0] = sd;
Ports[1] = mmc;
}
else
{
DSi_NWifi* nwifi = new DSi_NWifi(this);
Ports[0] = nwifi;
}
if (Ports[0]) Ports[0]->Reset();
if (Ports[1]) Ports[1]->Reset();
}
void DSi_SDHost::DoSavestate(Savestate* file)
{
file->Section(Num ? "SDIO" : "SDMM");
file->Var16(&PortSelect);
file->Var16(&SoftReset);
file->Var16(&SDClock);
file->Var16(&SDOption);
file->Var32(&IRQStatus);
file->Var32(&IRQMask);
file->Var16(&CardIRQStatus);
file->Var16(&CardIRQMask);
file->Var16(&CardIRQCtl);
file->Var16(&DataCtl);
file->Var16(&Data32IRQ);
file->Var32(&DataMode);
file->Var16(&BlockCount16);
file->Var16(&BlockCount32);
file->Var16(&BlockCountInternal);
file->Var16(&BlockLen16);
file->Var16(&BlockLen32);
file->Var16(&StopAction);
file->Var16(&Command);
file->Var32(&Param);
file->VarArray(ResponseBuffer, 8);
file->Var32(&CurFIFO);
DataFIFO[0].DoSavestate(file);
DataFIFO[1].DoSavestate(file);
DataFIFO32.DoSavestate(file);
if (Ports[0]) Ports[0]->DoSavestate(file);
if (Ports[1]) Ports[1]->DoSavestate(file);
}
void DSi_SDHost::UpdateData32IRQ()
{
if (DataMode == 0) return;
u32 oldflags = ((Data32IRQ >> 8) & 0x1) | (((~Data32IRQ) >> 8) & 0x2);
oldflags &= (Data32IRQ >> 11);
Data32IRQ &= ~0x0300;
if (DataFIFO32.Level() >= (BlockLen32>>2)) Data32IRQ |= (1<<8);
if (!DataFIFO32.IsEmpty()) Data32IRQ |= (1<<9);
u32 newflags = ((Data32IRQ >> 8) & 0x1) | (((~Data32IRQ) >> 8) & 0x2);
newflags &= (Data32IRQ >> 11);
if ((oldflags == 0) && (newflags != 0))
NDS::SetIRQ2(Num ? NDS::IRQ2_DSi_SDIO : NDS::IRQ2_DSi_SDMMC);
}
void DSi_SDHost::ClearIRQ(u32 irq)
{
IRQStatus &= ~(1<<irq);
}
void DSi_SDHost::SetIRQ(u32 irq)
{
u32 oldflags = IRQStatus & ~IRQMask;
IRQStatus |= (1<<irq);
u32 newflags = IRQStatus & ~IRQMask;
if ((oldflags == 0) && (newflags != 0))
NDS::SetIRQ2(Num ? NDS::IRQ2_DSi_SDIO : NDS::IRQ2_DSi_SDMMC);
}
void DSi_SDHost::UpdateIRQ(u32 oldmask)
{
u32 oldflags = IRQStatus & ~oldmask;
u32 newflags = IRQStatus & ~IRQMask;
if ((oldflags == 0) && (newflags != 0))
NDS::SetIRQ2(Num ? NDS::IRQ2_DSi_SDIO : NDS::IRQ2_DSi_SDMMC);
}
void DSi_SDHost::SetCardIRQ()
{
if (!(CardIRQCtl & (1<<0))) return;
u16 oldflags = CardIRQStatus & ~CardIRQMask;
DSi_SDDevice* dev = Ports[PortSelect & 0x1];
if (dev->IRQ) CardIRQStatus |= (1<<0);
else CardIRQStatus &= ~(1<<0);
u16 newflags = CardIRQStatus & ~CardIRQMask;
if ((oldflags == 0) && (newflags != 0)) // checkme
{
NDS::SetIRQ2(Num ? NDS::IRQ2_DSi_SDIO : NDS::IRQ2_DSi_SDMMC);
NDS::SetIRQ2(Num ? NDS::IRQ2_DSi_SDIO_Data1 : NDS::IRQ2_DSi_SD_Data1);
}
}
void DSi_SDHost::UpdateCardIRQ(u16 oldmask)
{
u16 oldflags = CardIRQStatus & ~oldmask;
u16 newflags = CardIRQStatus & ~CardIRQMask;
if ((oldflags == 0) && (newflags != 0)) // checkme
{
NDS::SetIRQ2(Num ? NDS::IRQ2_DSi_SDIO : NDS::IRQ2_DSi_SDMMC);
NDS::SetIRQ2(Num ? NDS::IRQ2_DSi_SDIO_Data1 : NDS::IRQ2_DSi_SD_Data1);
}
}
void DSi_SDHost::SendResponse(u32 val, bool last)
{
*(u32*)&ResponseBuffer[6] = *(u32*)&ResponseBuffer[4];
*(u32*)&ResponseBuffer[4] = *(u32*)&ResponseBuffer[2];
*(u32*)&ResponseBuffer[2] = *(u32*)&ResponseBuffer[0];
*(u32*)&ResponseBuffer[0] = val;
if (last) SetIRQ(0);
}
void DSi_SDHost::FinishRX(u32 param)
{
DSi_SDHost* host = (param & 0x1) ? DSi::SDIO : DSi::SDMMC;
host->CheckSwapFIFO();
if (host->DataMode == 1)
host->UpdateFIFO32();
else
host->SetIRQ(24);
}
u32 DSi_SDHost::DataRX(u8* data, u32 len)
{
if (len != BlockLen16) { printf("!! BAD BLOCKLEN\n"); len = BlockLen16; }
bool last = (BlockCountInternal == 0);
u32 f = CurFIFO ^ 1;
for (u32 i = 0; i < len; i += 2)
DataFIFO[f].Write(*(u16*)&data[i]);
//CurFIFO = f;
//SetIRQ(24);
// TODO: determine what the delay should be!
// for now, this is a placeholder
// we need a delay because DSi boot2 will send a command and then wait for IRQ0
// but if IRQ24 is thrown instantly, the handler clears IRQ0 before the
// send-command function starts polling IRQ status
u32 param = Num | (last << 1);
NDS::ScheduleEvent(Num ? NDS::Event_DSi_SDIOTransfer : NDS::Event_DSi_SDMMCTransfer,
false, 512, FinishRX, param);
return len;
}
void DSi_SDHost::FinishTX(u32 param)
{
DSi_SDHost* host = (param & 0x1) ? DSi::SDIO : DSi::SDMMC;
DSi_SDDevice* dev = host->Ports[host->PortSelect & 0x1];
if (host->BlockCountInternal == 0)
{
if (host->StopAction & (1<<8))
{
if (dev) dev->SendCMD(12, 0);
}
// CHECKME: presumably IRQ2 should not trigger here, but rather
// when the data transfer is done
//SetIRQ(0);
host->SetIRQ(2);
host->TXReq = false;
}
else
{
if (dev) dev->ContinueTransfer();
}
}
u32 DSi_SDHost::DataTX(u8* data, u32 len)
{
TXReq = true;
u32 f = CurFIFO;
if (DataMode == 1)
{
if ((DataFIFO32.Level() << 2) < len)
{
if (DataFIFO32.IsEmpty())
{
SetIRQ(25);
DSi::CheckNDMAs(1, Num ? 0x29 : 0x28);
}
return 0;
}
// drain FIFO32 into FIFO16
if (!DataFIFO[f].IsEmpty()) printf("VERY BAD!! TRYING TO DRAIN FIFO32 INTO FIFO16 BUT IT CONTAINS SHIT ALREADY\n");
for (;;)
{
u32 f = CurFIFO;
if ((DataFIFO[f].Level() << 1) >= BlockLen16) break;
if (DataFIFO32.IsEmpty()) break;
u32 val = DataFIFO32.Read();
DataFIFO[f].Write(val & 0xFFFF);
DataFIFO[f].Write(val >> 16);
}
UpdateData32IRQ();
if (BlockCount32 > 1)
BlockCount32--;
}
else
{
if ((DataFIFO[f].Level() << 1) < len)
{
if (DataFIFO[f].IsEmpty()) SetIRQ(25);
return 0;
}
}
for (u32 i = 0; i < len; i += 2)
*(u16*)&data[i] = DataFIFO[f].Read();
CurFIFO ^= 1;
BlockCountInternal--;
NDS::ScheduleEvent(Num ? NDS::Event_DSi_SDIOTransfer : NDS::Event_DSi_SDMMCTransfer,
false, 512, FinishTX, Num);
return len;
}
u32 DSi_SDHost::GetTransferrableLen(u32 len)
{
if (len > BlockLen16) len = BlockLen16; // checkme
return len;
}
void DSi_SDHost::CheckRX()
{
DSi_SDDevice* dev = Ports[PortSelect & 0x1];
CheckSwapFIFO();
if (BlockCountInternal <= 1)
{
if (StopAction & (1<<8))
{
if (dev) dev->SendCMD(12, 0);
}
// CHECKME: presumably IRQ2 should not trigger here, but rather
// when the data transfer is done
//SetIRQ(0);
SetIRQ(2);
}
else
{
BlockCountInternal--;
if (dev) dev->ContinueTransfer();
}
}
void DSi_SDHost::CheckTX()
{
if (!TXReq) return;
if (DataMode == 1)
{
if ((DataFIFO32.Level() << 2) < BlockLen32)
return;
}
else
{
u32 f = CurFIFO;
if ((DataFIFO[f].Level() << 1) < BlockLen16)
return;
}
DSi_SDDevice* dev = Ports[PortSelect & 0x1];
if (dev) dev->ContinueTransfer();
}
u16 DSi_SDHost::Read(u32 addr)
{
switch (addr & 0x1FF)
{
case 0x000: return Command;
case 0x002: return PortSelect & 0x030F;
case 0x004: return Param & 0xFFFF;
case 0x006: return Param >> 16;
case 0x008: return StopAction;
case 0x00A: return BlockCount16;
case 0x00C: return ResponseBuffer[0];
case 0x00E: return ResponseBuffer[1];
case 0x010: return ResponseBuffer[2];
case 0x012: return ResponseBuffer[3];
case 0x014: return ResponseBuffer[4];
case 0x016: return ResponseBuffer[5];
case 0x018: return ResponseBuffer[6];
case 0x01A: return ResponseBuffer[7];
case 0x01C:
{
u16 ret = (IRQStatus & 0x031D);
if (!Num)
{
if (Ports[0]) // basic check of whether the SD card is inserted
{
ret |= 0x0030;
if (!Ports[0]->ReadOnly) ret |= 0x0080;
}
else
ret |= 0x0008;
}
else
{
// SDIO wifi is always inserted, I guess
ret |= 0x00B0;
}
return ret;
}
case 0x01E: return ((IRQStatus >> 16) & 0x8B7F);
case 0x020: return IRQMask & 0x031D;
case 0x022: return (IRQMask >> 16) & 0x8B7F;
case 0x024: return SDClock;
case 0x026: return BlockLen16;
case 0x028: return SDOption;
case 0x02C: return 0; // TODO
case 0x034: return CardIRQCtl;
case 0x036: return CardIRQStatus;
case 0x038: return CardIRQMask;
case 0x030: return ReadFIFO16();
case 0x0D8: return DataCtl;
case 0x0E0: return SoftReset;
case 0x0F6: return 0; // MMC write protect (always 0)
case 0x100: return Data32IRQ;
case 0x102: return 0;
case 0x104: return BlockLen32;
case 0x108: return BlockCount32;
// dunno
case 0x106: return 0;
case 0x10A: return 0;
}
printf("unknown %s read %08X @ %08X\n", SD_DESC, addr, NDS::GetPC(1));
return 0;
}
u16 DSi_SDHost::ReadFIFO16()
{
u32 f = CurFIFO;
if (DataFIFO[f].IsEmpty())
{
// TODO
// on hardware it seems to wrap around. underflow bit is set upon the first 'empty' read.
return 0;
}
DSi_SDDevice* dev = Ports[PortSelect & 0x1];
u16 ret = DataFIFO[f].Read();
if (DataFIFO[f].IsEmpty())
{
CheckRX();
}
return ret;
}
u32 DSi_SDHost::ReadFIFO32()
{
if (DataMode != 1) return 0;
if (DataFIFO32.IsEmpty())
{
// TODO
return 0;
}
DSi_SDDevice* dev = Ports[PortSelect & 0x1];
u32 ret = DataFIFO32.Read();
if (DataFIFO32.IsEmpty())
{
CheckRX();
}
UpdateData32IRQ();
return ret;
}
void DSi_SDHost::Write(u32 addr, u16 val)
{
switch (addr & 0x1FF)
{
case 0x000:
{
Command = val;
u8 cmd = Command & 0x3F;
DSi_SDDevice* dev = Ports[PortSelect & 0x1];
if (dev)
{
// CHECKME
// "Setting Command Type to "ACMD" is automatically sending an APP_CMD prefix prior to the command number"
// except DSi boot2 manually sends an APP_CMD prefix AND sets the next command to be ACMD
switch ((Command >> 6) & 0x3)
{
case 0: dev->SendCMD(cmd, Param); break;
case 1: /*dev->SendCMD(55, 0);*/ dev->SendCMD(cmd, Param); break;
default:
printf("%s: unknown command type %d, %02X %08X\n", SD_DESC, (Command>>6)&0x3, cmd, Param);
break;
}
}
else printf("%s: SENDING CMD %04X TO NULL DEVICE\n", SD_DESC, val);
}
return;
case 0x002: PortSelect = (val & 0x040F) | (PortSelect & 0x0300); return;
case 0x004: Param = (Param & 0xFFFF0000) | val; return;
case 0x006: Param = (Param & 0x0000FFFF) | (val << 16); return;
case 0x008: StopAction = val & 0x0101; return;
case 0x00A: BlockCount16 = val; BlockCountInternal = val; return;
case 0x01C: IRQStatus &= (val | 0xFFFF0000); return;
case 0x01E: IRQStatus &= ((val << 16) | 0xFFFF); return;
case 0x020:
{
u32 oldmask = IRQMask;
IRQMask = (IRQMask & 0x8B7F0000) | (val & 0x031D);
UpdateIRQ(oldmask);
}
return;
case 0x022:
{
u32 oldmask = IRQMask;
IRQMask = (IRQMask & 0x0000031D) | ((val & 0x8B7F) << 16);
UpdateIRQ(oldmask);
//if (!DataFIFO[CurFIFO]->IsEmpty()) SetIRQ(24); // checkme
//if (DataFIFO[CurFIFO]->IsEmpty()) SetIRQ(25); // checkme
}
return;
case 0x024: SDClock = val & 0x03FF; return;
case 0x026:
BlockLen16 = val & 0x03FF;
if (BlockLen16 > 0x200) BlockLen16 = 0x200;
return;
case 0x028: SDOption = val & 0xC1FF; return;
case 0x030: WriteFIFO16(val); return;
case 0x034:
CardIRQCtl = val & 0x0305;
SetCardIRQ();
return;
case 0x036:
CardIRQStatus &= val;
return;
case 0x038:
{
u16 oldmask = CardIRQMask;
CardIRQMask = val & 0xC007;
UpdateCardIRQ(oldmask);
}
//CardIRQMask = val & 0xC007;
//SetCardIRQ();
return;
case 0x0D8:
DataCtl = (val & 0x0022);
DataMode = ((DataCtl >> 1) & 0x1) & ((Data32IRQ >> 1) & 0x1);
return;
case 0x0E0:
if ((SoftReset & 0x0001) && !(val & 0x0001))
{
printf("%s: RESET\n", SD_DESC);
StopAction = 0;
memset(ResponseBuffer, 0, sizeof(ResponseBuffer));
IRQStatus = 0;
// TODO: ERROR_DETAIL_STATUS
SDClock &= ~0x0500;
SDOption = 0x40EE;
// TODO: CARD_IRQ_STAT
// TODO: FIFO16 shit
if (Ports[0]) Ports[0]->Reset();
if (Ports[1]) Ports[1]->Reset();
}
SoftReset = 0x0006 | (val & 0x0001);
return;
case 0x100:
Data32IRQ = (val & 0x1802) | (Data32IRQ & 0x0300);
if (val & (1<<10)) DataFIFO32.Clear();
DataMode = ((DataCtl >> 1) & 0x1) & ((Data32IRQ >> 1) & 0x1);
return;
case 0x102: return;
case 0x104: BlockLen32 = val & 0x03FF; return;
case 0x108: BlockCount32 = val; return;
// dunno
case 0x106: return;
case 0x10A: return;
}
printf("unknown %s write %08X %04X\n", SD_DESC, addr, val);
}
void DSi_SDHost::WriteFIFO16(u16 val)
{
DSi_SDDevice* dev = Ports[PortSelect & 0x1];
u32 f = CurFIFO;
if (DataFIFO[f].IsFull())
{
// TODO
printf("!!!! %s FIFO (16) FULL\n", SD_DESC);
return;
}
DataFIFO[f].Write(val);
CheckTX();
}
void DSi_SDHost::WriteFIFO32(u32 val)
{
if (DataMode != 1) return;
if (DataFIFO32.IsFull())
{
// TODO
printf("!!!! %s FIFO (32) FULL\n", SD_DESC);
return;
}
DataFIFO32.Write(val);
CheckTX();
UpdateData32IRQ();
}
void DSi_SDHost::UpdateFIFO32()
{
// check whether we can drain FIFO32 into FIFO16, or vice versa
if (DataMode != 1) return;
if (!DataFIFO32.IsEmpty()) printf("VERY BAD!! TRYING TO DRAIN FIFO16 INTO FIFO32 BUT IT CONTAINS SHIT ALREADY\n");
for (;;)
{
u32 f = CurFIFO;
if ((DataFIFO32.Level() << 2) >= BlockLen32) break;
if (DataFIFO[f].IsEmpty()) break;
u32 val = DataFIFO[f].Read();
val |= (DataFIFO[f].Read() << 16);
DataFIFO32.Write(val);
}
UpdateData32IRQ();
if ((DataFIFO32.Level() << 2) >= BlockLen32)
{
DSi::CheckNDMAs(1, Num ? 0x29 : 0x28);
}
}
void DSi_SDHost::CheckSwapFIFO()
{
// check whether we can swap the FIFOs
u32 f = CurFIFO;
bool cur_empty = (DataMode == 1) ? DataFIFO32.IsEmpty() : DataFIFO[f].IsEmpty();
if (cur_empty && ((DataFIFO[f^1].Level() << 1) >= BlockLen16))
{
CurFIFO ^= 1;
}
}
#define MMC_DESC (Internal?"NAND":"SDcard")
DSi_MMCStorage::DSi_MMCStorage(DSi_SDHost* host, bool internal, std::string filename)
: DSi_SDDevice(host)
{
Internal = internal;
File = Platform::OpenLocalFile(filename, "r+b");
SD = nullptr;
ReadOnly = false;
}
DSi_MMCStorage::DSi_MMCStorage(DSi_SDHost* host, bool internal, std::string filename, u64 size, bool readonly, std::string sourcedir)
: DSi_SDDevice(host)
{
Internal = internal;
File = nullptr;
SD = new FATStorage(filename, size, readonly, sourcedir);
SD->Open();
ReadOnly = readonly;
}
DSi_MMCStorage::~DSi_MMCStorage()
{
if (SD)
{
SD->Close();
delete SD;
}
if (File)
{
fclose(File);
}
}
void DSi_MMCStorage::Reset()
{
// TODO: reset file access????
CSR = 0x00000100; // checkme
// TODO: busy bit
// TODO: SDHC/SDXC bit
OCR = 0x80FF8000;
// TODO: customize based on card size etc
u8 csd_template[16] = {0x40, 0x40, 0x96, 0xE9, 0x7F, 0xDB, 0xF6, 0xDF, 0x01, 0x59, 0x0F, 0x2A, 0x01, 0x26, 0x90, 0x00};
memcpy(CSD, csd_template, 16);
// checkme
memset(SCR, 0, 8);
*(u32*)&SCR[0] = 0x012A0000;
memset(SSR, 0, 64);
BlockSize = 0;
RWAddress = 0;
RWCommand = 0;
}
void DSi_MMCStorage::DoSavestate(Savestate* file)
{
file->Section(Internal ? "NAND" : "SDCR");
file->VarArray(CID, 16);
file->VarArray(CSD, 16);
file->Var32(&CSR);
file->Var32(&OCR);
file->Var32(&RCA);
file->VarArray(SCR, 8);
file->VarArray(SSR, 64);
file->Var32(&BlockSize);
file->Var64(&RWAddress);
file->Var32(&RWCommand);
// TODO: what about the file contents?
}
void DSi_MMCStorage::SendCMD(u8 cmd, u32 param)
{
if (CSR & (1<<5))
{
CSR &= ~(1<<5);
return SendACMD(cmd, param);
}
switch (cmd)
{
case 0: // reset/etc
Host->SendResponse(CSR, true);
return;
case 1: // SEND_OP_COND
// CHECKME!!
// also TODO: it's different for the SD card
if (Internal)
{
param &= ~(1<<30);
OCR &= 0xBF000000;
OCR |= (param & 0x40FFFFFF);
Host->SendResponse(OCR, true);
SetState(0x01);
}
else
{
printf("CMD1 on SD card!!\n");
}
return;
case 2:
case 10: // get CID
Host->SendResponse(*(u32*)&CID[12], false);
Host->SendResponse(*(u32*)&CID[8], false);
Host->SendResponse(*(u32*)&CID[4], false);
Host->SendResponse(*(u32*)&CID[0], true);
if (cmd == 2) SetState(0x02);
return;
case 3: // get/set RCA
if (Internal)
{
RCA = param >> 16;
Host->SendResponse(CSR|0x10000, true); // huh??
}
else
{
// TODO
printf("CMD3 on SD card: TODO\n");
Host->SendResponse((CSR & 0x1FFF) | ((CSR >> 6) & 0x2000) | ((CSR >> 8) & 0xC000) | (1 << 16), true);
}
return;
case 6: // MMC: 'SWITCH'
// TODO!
Host->SendResponse(CSR, true);
return;
case 7: // select card (by RCA)
Host->SendResponse(CSR, true);
return;
case 8: // set voltage
Host->SendResponse(param, true);
return;
case 9: // get CSD
Host->SendResponse(*(u32*)&CSD[12], false);
Host->SendResponse(*(u32*)&CSD[8], false);
Host->SendResponse(*(u32*)&CSD[4], false);
Host->SendResponse(*(u32*)&CSD[0], true);
return;
case 12: // stop operation
SetState(0x04);
if (File) fflush(File);
RWCommand = 0;
Host->SendResponse(CSR, true);
return;
case 13: // get status
Host->SendResponse(CSR, true);
return;
case 16: // set block size
BlockSize = param;
if (BlockSize > 0x200)
{
// TODO! raise error
printf("!! SD/MMC: BAD BLOCK LEN %d\n", BlockSize);
BlockSize = 0x200;
}
SetState(0x04); // CHECKME
Host->SendResponse(CSR, true);
return;
case 18: // read multiple blocks
//printf("READ_MULTIPLE_BLOCKS addr=%08X size=%08X\n", param, BlockSize);
RWAddress = param;
if (OCR & (1<<30))
{
RWAddress <<= 9;
BlockSize = 512;
}
RWCommand = 18;
Host->SendResponse(CSR, true);
RWAddress += ReadBlock(RWAddress);
SetState(0x05);
return;
case 25: // write multiple blocks
//printf("WRITE_MULTIPLE_BLOCKS addr=%08X size=%08X\n", param, BlockSize);
RWAddress = param;
if (OCR & (1<<30))
{
RWAddress <<= 9;
BlockSize = 512;
}
RWCommand = 25;
Host->SendResponse(CSR, true);
RWAddress += WriteBlock(RWAddress);
SetState(0x04);
return;
case 55: // appcmd prefix
CSR |= (1<<5);
Host->SendResponse(CSR, true);
return;
}
printf("MMC: unknown CMD %d %08X\n", cmd, param);
}
void DSi_MMCStorage::SendACMD(u8 cmd, u32 param)
{
switch (cmd)
{
case 6: // set bus width (TODO?)
//printf("SET BUS WIDTH %08X\n", param);
Host->SendResponse(CSR, true);
return;
case 13: // get SSR
Host->SendResponse(CSR, true);
Host->DataRX(SSR, 64);
return;
case 41: // set operating conditions
// CHECKME:
// DSi boot2 sets this to 0x40100000 (hardcoded)
// then has two codepaths depending on whether bit30 did get set
// is it settable at all on the MMC? probably not.
if (Internal) param &= ~(1<<30);
OCR &= 0xBF000000;
OCR |= (param & 0x40FFFFFF);
Host->SendResponse(OCR, true);
SetState(0x01);
return;
case 42: // ???
Host->SendResponse(CSR, true);
return;
case 51: // get SCR
Host->SendResponse(CSR, true);
Host->DataRX(SCR, 8);
return;
}
printf("MMC: unknown ACMD %d %08X\n", cmd, param);
}
void DSi_MMCStorage::ContinueTransfer()
{
if (RWCommand == 0) return;
u32 len = 0;
switch (RWCommand)
{
case 18:
len = ReadBlock(RWAddress);
break;
case 25:
len = WriteBlock(RWAddress);
break;
}
RWAddress += len;
}
u32 DSi_MMCStorage::ReadBlock(u64 addr)
{
u32 len = BlockSize;
len = Host->GetTransferrableLen(len);
u8 data[0x200];
if (SD)
{
SD->ReadSectors((u32)(addr >> 9), 1, data);
}
else if (File)
{
fseek(File, addr, SEEK_SET);
fread(&data[addr & 0x1FF], 1, len, File);
}
return Host->DataRX(&data[addr & 0x1FF], len);
}
u32 DSi_MMCStorage::WriteBlock(u64 addr)
{
u32 len = BlockSize;
len = Host->GetTransferrableLen(len);
u8 data[0x200];
if (len < 0x200)
{
if (SD)
{
SD->ReadSectors((u32)(addr >> 9), 1, data);
}
}
if ((len = Host->DataTX(&data[addr & 0x1FF], len)))
{
if (!ReadOnly)
{
if (SD)
{
SD->WriteSectors((u32)(addr >> 9), 1, data);
}
else if (File)
{
fseek(File, addr, SEEK_SET);
fwrite(&data[addr & 0x1FF], 1, len, File);
}
}
}
return len;
}
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