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Add support for SDHC. 

This add support for SD protocol 2 while staying compatible with protocol 1.01.
Most of this is quite hacky, but it seems to be working well.
The original implementation was quite confusing, so I didn't touch most of the stuff I did not understand.
This commit is contained in:
Tom Boshoven 2017-07-29 21:14:14 +02:00
parent 334e117da7
commit 4cbb66637b
2 changed files with 209 additions and 21 deletions
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217
Source/Core/Core/IOS/SDIO/SDIOSlot0.cpp
View File

@ -82,6 +82,7 @@ ReturnCode SDIOSlot0::Open(const OpenRequest& request)
m_registers.fill(0);
m_is_active = true;
return IPC_SUCCESS;
}
@ -154,7 +155,8 @@ s32 SDIOSlot0::ExecuteCommand(const Request& request, u32 _BufferIn, u32 _Buffer
u32 pad0;
} req;
req.command = Memory::Read_U32(_BufferIn + 0);
// Ignore the first two bits
req.command = Memory::Read_U32(_BufferIn + 0) & 0x3f;
req.type = Memory::Read_U32(_BufferIn + 4);
req.resp = Memory::Read_U32(_BufferIn + 8);
req.arg = Memory::Read_U32(_BufferIn + 12);
@ -171,7 +173,21 @@ s32 SDIOSlot0::ExecuteCommand(const Request& request, u32 _BufferIn, u32 _Buffer
switch (req.command)
{
case GO_IDLE_STATE:
// libogc can use it during init..
INFO_LOG(IOS_SD, "GO_IDLE_STATE");
if (m_Card)
{
if (m_Card.GetSize() > SDHC_BYTES)
{
m_Status |= CARD_SDHC;
Memory::Write_U32(0xc0ff8000, _BufferOut);
}
else
{
Memory::Write_U32(0x80ff8000, _BufferOut);
// No further initialization required.
m_Status |= CARD_INITIALIZED;
}
}
break;
case SEND_RELATIVE_ADDR:
@ -187,21 +203,147 @@ s32 SDIOSlot0::ExecuteCommand(const Request& request, u32 _BufferIn, u32 _Buffer
break;
case SEND_IF_COND:
INFO_LOG(IOS_SD, "SEND_IF_COND");
// If the card can operate on the supplied voltage, the response echoes back the supply
// voltage and the check pattern that were set in the command argument.
// This instruction is used to differentiate between protocol v1 and v2.
m_Protocol = PROTOCOL_V2;
Memory::Write_U32(req.arg, _BufferOut);
break;
case SEND_CSD:
INFO_LOG(IOS_SD, "SEND_CSD");
// <WntrMute> shuffle2_, OCR: 0x80ff8000 CID: 0x38a00000 0x480032d5 0x3c608030 0x8803d420
// CSD: 0xff928040 0xc93efbcf 0x325f5a83 0x00002600
{
u64 size = m_Card.GetSize();
if (m_Protocol == PROTOCOL_V2)
{
if (size % (512 * 1024) != 0)
WARN_LOG(IOS_SD, "SDHC Card size cannot be divided by 1024 * 512");
// Values used currently are from lpfaint99
Memory::Write_U32(0x80168000, _BufferOut);
Memory::Write_U32(0xa9ffffff, _BufferOut + 4);
Memory::Write_U32(0x325b5a83, _BufferOut + 8);
Memory::Write_U32(0x00002e00, _BufferOut + 12);
size /= 512 * 1024;
size -= 1;
// 0b01 CSD_STRUCTURE (SDv2)
// 0b000000 reserved
// 0b00001110 TAAC (1.0 * 1ms)
// 0b00000000 NSAC
// 0b01011010 TRAN_SPEED (5.0 * 10 Mbit/s, max operating frequency)
// 0b010111110101 CCC (TODO: Figure out what each command class does)
// 0b1001 READ_BL_LEN (512 bytes, fixed for SDHC)
// 0b0 READ_BL_PARTIAL
// 0b0 WRITE_BLK_MISALIGN
// 0b0 READ_BLK_MISALIGN
// 0b0 DSR_IMP (no driver stage register implemented)
// 0b000000 reserved
// 0b?????? C_SIZE (most significant 6 bits)
// 0b???????????????? C_SIZE (least significant 16 bits)
// 0b0 reserved
// 0b1 ERASE_BLK_EN
// 0b1111111 SECTOR_SIZE
// 0b0000000 WP_GRP_SIZE (not supported in SDHC)
// 0b0 WP_GRP_ENABLE
// 0b00 reserved
// 0b010 R2W_FACTOR (x4)
// 0b1001 WRITE_BL_LEN (512 bytes)
// 0b0 WRITE_BL_PARTIAL
// 0b00000 reserved
// 0b0 FILE_FORMAT_GRP
// 0b0 COPY
// 0b0 PERM_WRITE_PROTECT
// 0b0 TMP_WRITE_PROTECT
// 0b00 FILE_FORMAT
// 0b00 reserved
// 0b0000000 CRC
// 0b1 reserved
// TODO: crc7
u32 crc = 0;
Memory::Write_U32(0x400e005a, _BufferOut);
Memory::Write_U32(0x5f590000 | (size >> 16), _BufferOut + 4);
Memory::Write_U32(0x00007f80 | (size << 16), _BufferOut + 8);
Memory::Write_U32(0x0a400001 | crc << 1, _BufferOut + 12);
}
else
{
// 2048 bytes/sector
u32 read_bl_len = 11;
// size = (c_size + 1) * (1 << (2 + c_size_mult + read_bl_len))
u64 c_size = size;
u32 c_size_mult = 0;
bool invalid_size = false;
while (c_size > 4096)
{
invalid_size |= c_size & 1;
c_size >>= 1;
if (++c_size_mult >= 8 + 2 + read_bl_len)
{
ERROR_LOG(IOS_SD, "SD Card is too big!");
// Set max values
c_size = 4096;
c_size_mult = 7 + 2 + read_bl_len;
}
}
c_size_mult -= 2 + read_bl_len;
--c_size;
if (invalid_size)
WARN_LOG(IOS_SD, "SD Card size is invalid");
else
INFO_LOG(IOS_SD, "SD C_SIZE = %lu, C_SIZE_MULT = %u", c_size, c_size_mult);
// 0b00 CSD_STRUCTURE (SDv1)
// 0b000000 reserved
// 0b01111111 TAAC (8.0 * 10ms)
// 0b00000000 NSAC
// 0b00110010 TRAN_SPEED (2.5 * 10 Mbit/s, max operating frequency)
// 0b010110110101 CCC
// 0b1111 READ_BL_LEN (2048 bytes)
// 0b1 READ_BL_PARTIAL
// 0b0 WRITE_BL_MISALIGN
// 0b0 READ_BLK_MISALIGN
// 0b0 DSR_IMP (no driver stage register implemented)
// 0b00 reserved
// 0b?????????? C_SIZE (most significant 10 bits)
// 0b?? C_SIZE (least significant 2 bits)
// 0b111 VDD_R_CURR_MIN (100 mA)
// 0b111 VDD_R_CURR_MAX (100 mA)
// 0b111 VDD_W_CURR_MIN (100 mA)
// 0b111 VDD_W_CURR_MAX (100 mA)
// 0b??? C_SIZE_MULT
// 0b1 ERASE_BLK_EN (erase unit = 512 bytes)
// 0b1111111 SECTOR_SIZE (128 write blocks)
// 0b0000000 WP_GRP_SIZE
// 0b0 WP_GRP_ENABLE (no write protection)
// 0b00 reserved
// 0b001 R2W_FACTOR (write half as fast as read)
// 0b1111 WRITE_BL_LEN (= READ_BL_LEN)
// 0b0 WRITE_BL_PARTIAL (no partial block writes)
// 0b00000 reserved
// 0b0 FILE_FORMAT_GRP (default)
// 0b1 COPY (contents are copied)
// 0b0 PERM_WRITE_PROTECT (not permanently write protected)
// 0b0 TMP_READ_PROTECT (not temporarily write protected)
// 0b00 FILE_FORMAT (contains partition table)
// 0b00 reserved
// 0b??????? CRC
// 0b1 reserved
// TODO: CRC7
u32 crc = 0;
Memory::Write_U32(0x007f0032, _BufferOut);
Memory::Write_U32(0x5b5f8000 | (c_size >> 2), _BufferOut + 4);
Memory::Write_U32(0x3ffc7f80 | (c_size << 30) | (c_size_mult << 15), _BufferOut + 8);
Memory::Write_U32(0x07c04001 | (crc << 1), _BufferOut + 12);
}
}
break;
case ALL_SEND_CID:
@ -232,7 +374,18 @@ s32 SDIOSlot0::ExecuteCommand(const Request& request, u32 _BufferIn, u32 _Buffer
case ACMD_SENDOPCOND:
// Sends host capacity support information (HCS) and asks the accessed card to send
// its operating condition register (OCR) content
Memory::Write_U32(0x80ff8000, _BufferOut);
{
u32 ocr = 0x00ff8000;
// Never leave idle state if the card is not supported by the protocol
if (m_Protocol == PROTOCOL_V2 || !(m_Status & CARD_SDHC))
{
m_Status |= CARD_INITIALIZED;
ocr |= 0x80000000;
if (m_Status & CARD_SDHC)
ocr |= 0x40000000;
}
Memory::Write_U32(ocr, _BufferOut);
}
break;
case READ_MULTIPLE_BLOCK:
@ -245,8 +398,13 @@ s32 SDIOSlot0::ExecuteCommand(const Request& request, u32 _BufferIn, u32 _Buffer
if (m_Card)
{
u32 size = req.bsize * req.blocks;
u64 address = req.arg;
if (m_Status & CARD_SDHC)
{
address *= 512;
}
if (!m_Card.Seek(req.arg, SEEK_SET))
if (!m_Card.Seek(address, SEEK_SET))
ERROR_LOG(IOS_SD, "Seek failed WTF");
if (m_Card.ReadBytes(Memory::GetPointer(req.addr), size))
@ -274,8 +432,13 @@ s32 SDIOSlot0::ExecuteCommand(const Request& request, u32 _BufferIn, u32 _Buffer
if (m_Card && SConfig::GetInstance().bEnableMemcardSdWriting)
{
u32 size = req.bsize * req.blocks;
u64 address = req.arg;
if (m_Status & CARD_SDHC)
{
address *= 512;
}
if (!m_Card.Seek(req.arg, SEEK_SET))
if (!m_Card.Seek(address, SEEK_SET))
ERROR_LOG(IOS_SD, "fseeko failed WTF");
if (!m_Card.WriteBytes(Memory::GetPointer(req.addr), size))
@ -289,6 +452,9 @@ s32 SDIOSlot0::ExecuteCommand(const Request& request, u32 _BufferIn, u32 _Buffer
Memory::Write_U32(0x900, _BufferOut);
break;
// The following events don't seem to be possible due to the command length being only 6 bits
// I don't want to delete this without more context on why it's there and what it's meant to do
/*
case EVENT_REGISTER: // async
INFO_LOG(IOS_SD, "Register event %x", req.arg);
m_event = std::make_unique<Event>(static_cast<EventType>(req.arg), request);
@ -308,6 +474,7 @@ s32 SDIOSlot0::ExecuteCommand(const Request& request, u32 _BufferIn, u32 _Buffer
m_event.reset();
break;
}
*/
default:
ERROR_LOG(IOS_SD, "Unknown SD command 0x%08x", req.command);
@ -371,11 +538,9 @@ IPCCommandResult SDIOSlot0::ResetCard(const IOCtlRequest& request)
{
INFO_LOG(IOS_SD, "IOCTL_RESETCARD");
if (m_Card)
m_Status |= CARD_INITIALIZED;
// Returns 16bit RCA and 16bit 0s (meaning success)
Memory::Write_U32(0x9f620000, request.buffer_out);
Memory::Write_U32(m_Status, request.buffer_out);
return GetDefaultReply(IPC_SUCCESS);
}
@ -417,7 +582,8 @@ IPCCommandResult SDIOSlot0::GetStatus(const IOCtlRequest& request)
else
m_Status = CARD_NOT_EXIST;
INFO_LOG(IOS_SD, "IOCTL_GETSTATUS. Replying that SD card is %s%s",
INFO_LOG(IOS_SD, "IOCTL_GETSTATUS. Replying that %s card is %s%s",
(m_Status & CARD_SDHC) ? "SDHC" : "SD",
(m_Status & CARD_INSERTED) ? "inserted" : "not present",
(m_Status & CARD_INITIALIZED) ? " and initialized" : "");
@ -427,8 +593,18 @@ IPCCommandResult SDIOSlot0::GetStatus(const IOCtlRequest& request)
IPCCommandResult SDIOSlot0::GetOCRegister(const IOCtlRequest& request)
{
INFO_LOG(IOS_SD, "IOCTL_GETOCR");
Memory::Write_U32(0x80ff8000, request.buffer_out);
u32 ocr = 0x00ff8000;
// Never leave idle state if the card is not supported by the protocol
if (m_Protocol == PROTOCOL_V2 || !(m_Status & CARD_SDHC))
{
if (m_Status & CARD_INITIALIZED)
ocr |= 0x80000000;
if (m_Status & CARD_SDHC)
ocr |= 0x40000000;
}
INFO_LOG(IOS_SD, "IOCTL_GETOCR. Replying with ocr %x", ocr);
Memory::Write_U32(ocr, request.buffer_out);
return GetDefaultReply(IPC_SUCCESS);
}
@ -444,6 +620,7 @@ IPCCommandResult SDIOSlot0::SendCommand(const IOCtlVRequest& request)
return GetDefaultReply(return_value);
}
} // namespace Device
} // namespace HLE
} // namespace IOS

11
Source/Core/Core/IOS/SDIO/SDIOSlot0.h
View File

@ -77,6 +77,7 @@ private:
CARD_NOT_EXIST = 0,
CARD_INSERTED = 1,
CARD_INITIALIZED = 0x10000,
CARD_SDHC = 0x100000,
};
// Commands
@ -111,6 +112,14 @@ private:
EVENT_INVALID = 0xc210000
};
enum SD_PROTOCOL
{
PROTOCOL_V1 = 0,
PROTOCOL_V2 = 1,
};
const u32 SDHC_BYTES = 0x80000000;
struct Event
{
Event(EventType type_, Request request_) : type(type_), request(request_) {}
@ -136,6 +145,8 @@ private:
std::unique_ptr<Event> m_event;
u32 m_Status = CARD_NOT_EXIST;
u32 m_Protocol = PROTOCOL_V1;
u32 m_BlockLength = 0;
u32 m_BusWidth = 0;