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(更新:Akabane Jumpei)

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・WRAM経由カードアプリロード実装中。
ARM9側のカードリード関数を、エラーを返すように修正。(今後エラー内容の修正あり)

git-svn-id: file:///Users/lillianskinner/Downloads/platinum/twl/TwlIPL/trunk@1331 b08762b0-b915-fc4b-9d8c-17b2551a87ff
This commit is contained in:
(no author) 2008-05-14 00:57:30 +00:00
parent 6bbf963809
commit 1c786636b6
4 changed files with 134 additions and 113 deletions
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152
build/libraries_sysmenu/hotsw/ARM7/src/hotsw.c
View File

@ -109,7 +109,7 @@ static BOOL CheckArm9HashValue(void);
static BOOL CheckExtArm7HashValue(void);
static BOOL CheckExtArm9HashValue(void);
#else
static HotSwState ReadCardData(u32 src, u32 dest, u32 size);
static CardDataReadState ReadCardData(u32 src, u32 dest, u32 size);
#endif
static void ShowRegisterData(void);
@ -886,18 +886,13 @@ static HotSwState LoadBannerData(void)
twl_card_keytable_area_rom_offset -> KeyTable2領域オフセット
*---------------------------------------------------------------------------*/
#ifdef USE_WRAM_LOAD
static HotSwState ReadCardData(u32 src, u32 dest, u32 size)
static CardDataReadState ReadCardData(u32 src, u32 dest, u32 size)
{
u32 sendSize = 0;
u32 remainSize = size;
u32 srcAdd = src;
u32 destAdd = dest;
SYSMi_GetWork()->flags.hotsw.isCardReadCompleted = FALSE;
u32 sendSize = 0;
BOOL result = TRUE;
if(!SYSMi_GetWork()->flags.hotsw.isCardGameMode){
// [TODO] 適切なエラーコード作って、返す
return HOTSW_UNEXPECTED_ERROR;
return CARD_READ_MODE_ERROR;
}
// カードのロック
@ -907,26 +902,28 @@ static HotSwState ReadCardData(u32 src, u32 dest, u32 size)
LockExCard(s_CardLockID);
#endif
while(remainSize > 0){
while(size > 0){
// --- Boot Segment
if(srcAdd >= HOTSW_BOOTSEGMENT_AREA_OFS && srcAdd < HOTSW_KEYTABLE_AREA_OFS){
if(src >= HOTSW_BOOTSEGMENT_AREA_OFS && src < HOTSW_KEYTABLE_AREA_OFS){
OS_TPrintf("%s %d\n", __FUNCTION__, __LINE__);
sendSize = ((srcAdd + remainSize) > HOTSW_KEYTABLE_AREA_OFS) ? HOTSW_KEYTABLE_AREA_OFS - srcAdd : remainSize;
MI_CpuCopy8((u32 *)(SYSM_CARD_ROM_HEADER_BAK + (srcAdd - HOTSW_BOOTSEGMENT_AREA_OFS)), (u32 *)destAdd, sendSize);
}
sendSize = ((src + size) > HOTSW_KEYTABLE_AREA_OFS) ? HOTSW_KEYTABLE_AREA_OFS - src : size;
MI_CpuCopy8((u32 *)(SYSM_CARD_ROM_HEADER_BAK + (src - HOTSW_BOOTSEGMENT_AREA_OFS)), (u32 *)dest, sendSize);
}
// --- Key Table
else if(srcAdd >= HOTSW_KEYTABLE_AREA_OFS && srcAdd < HOTSW_SECURE_AREA_OFS){
// [TODO] ここなにも処理しない?
sendSize = remainSize;
else if(src >= HOTSW_KEYTABLE_AREA_OFS && src < HOTSW_SECURE_AREA_OFS){
OS_TPrintf("%s %d\n", __FUNCTION__, __LINE__);
sendSize = ((src + size) > HOTSW_SECURE_AREA_OFS) ? HOTSW_SECURE_AREA_OFS - src : size;
result = ReadImage((u32 *)dest, (s32)src, (s32)sendSize, &s_cbData);
}
// --- Secure Segment
else if(srcAdd >= HOTSW_SECURE_AREA_OFS && srcAdd < HOTSW_GAME_AREA_OFS){
sendSize = ((srcAdd + remainSize) > HOTSW_GAME_AREA_OFS) ? HOTSW_GAME_AREA_OFS - srcAdd : remainSize;
OS_TPrintf("%s %d Src Adr : 0x%08x\n", __FUNCTION__, __LINE__, (SYSM_CARD_NTR_SECURE_BUF + (srcAdd - HOTSW_SECURE_AREA_OFS)) );
MI_CpuCopy8((u32 *)(SYSM_CARD_NTR_SECURE_BUF + (srcAdd - HOTSW_SECURE_AREA_OFS)), (u32 *)destAdd, sendSize);
else if(src >= HOTSW_SECURE_AREA_OFS && src < HOTSW_GAME_AREA_OFS){
OS_TPrintf("%s %d\n", __FUNCTION__, __LINE__);
sendSize = ((src + size) > HOTSW_GAME_AREA_OFS) ? HOTSW_GAME_AREA_OFS - src : size;
MI_CpuCopy8((u32 *)(SYSM_CARD_NTR_SECURE_BUF + (src - HOTSW_SECURE_AREA_OFS)), (u32 *)dest, sendSize);
}
// --- Game Segment
else if(srcAdd >= HOTSW_GAME_AREA_OFS){
else if(src >= HOTSW_GAME_AREA_OFS){
// KeyTable2が設定されている場合
if(s_cbData.pBootSegBuf->rh.s.twl_card_keytable_area_rom_offset){
u32 keyTable2Adr = (u32)s_cbData.pBootSegBuf->rh.s.twl_card_keytable_area_rom_offset * TWLCARD_BORDER_OFFSET;
@ -934,40 +931,41 @@ static HotSwState ReadCardData(u32 src, u32 dest, u32 size)
u32 Game2Adr = keyTable2Adr + HOTSW_GAME2_AREA_OFS;
// --- Game Segment
if(srcAdd < keyTable2Adr){
sendSize = ((srcAdd + remainSize) > keyTable2Adr) ? keyTable2Adr - srcAdd : remainSize;
OS_TPrintf("%s %d Src Adr : 0x%08x Dest Adr : 0x%08x Size : 0x%08x\n", __FUNCTION__, __LINE__, srcAdd, destAdd, sendSize );
ReadImage((u32 *)destAdd, (s32)srcAdd, (s32)sendSize, &s_cbData);
if(src < keyTable2Adr){
OS_TPrintf("%s %d\n", __FUNCTION__, __LINE__);
sendSize = ((src + size) > keyTable2Adr) ? keyTable2Adr - src : size;
result = ReadImage((u32 *)dest, (s32)src, (s32)sendSize, &s_cbData);
}
// --- Key Table2
else if(srcAdd >= keyTable2Adr && srcAdd < Secure2Adr){
// [TODO] ここなにも処理しない?
sendSize = remainSize;
else if(src >= keyTable2Adr && src < Secure2Adr){
OS_TPrintf("%s %d\n", __FUNCTION__, __LINE__);
sendSize = ((src + size) > Secure2Adr) ? Secure2Adr - src : size;
result = ReadImage((u32 *)dest, (s32)src, (s32)sendSize, &s_cbData);
}
// --- Secure2 Segment
else if(srcAdd >= Secure2Adr && srcAdd < Game2Adr){
sendSize = ((srcAdd + remainSize) > Game2Adr) ? Game2Adr - srcAdd : remainSize;
OS_TPrintf("%s %d Src Adr : 0x%08x\n", __FUNCTION__, __LINE__, (SYSM_CARD_TWL_SECURE_BUF + (srcAdd - Secure2Adr)) );
MI_CpuCopy8((u32 *)(SYSM_CARD_TWL_SECURE_BUF + (srcAdd - Secure2Adr)), (u32 *)destAdd, sendSize);
else if(src >= Secure2Adr && src < Game2Adr){
OS_TPrintf("%s %d\n", __FUNCTION__, __LINE__);
sendSize = ((src + size) > Game2Adr) ? Game2Adr - src : size;
MI_CpuCopy8((u32 *)(SYSM_CARD_TWL_SECURE_BUF + (src - Secure2Adr)), (u32 *)dest, sendSize);
}
// --- Game2 Segment
else{
sendSize = remainSize;
OS_TPrintf("%s %d Src Adr : 0x%08x Dest Adr : 0x%08x Size : 0x%08x\n", __FUNCTION__, __LINE__, srcAdd, destAdd, sendSize );
ReadImage((u32 *)destAdd, (s32)srcAdd, (s32)sendSize, &s_cbData);
OS_TPrintf("%s %d\n", __FUNCTION__, __LINE__);
sendSize = size;
result = ReadImage((u32 *)dest, (s32)src, (s32)sendSize, &s_cbData);
}
}
// --- Game Segment
else{
sendSize = remainSize;
OS_TPrintf("%s %d Src Adr : 0x%08x Dest Adr : 0x%08x Size : 0x%08x\n", __FUNCTION__, __LINE__, srcAdd, destAdd, sendSize );
ReadImage((u32 *)destAdd, (s32)srcAdd, (s32)sendSize, &s_cbData);
OS_TPrintf("%s %d\n", __FUNCTION__, __LINE__);
sendSize = size;
result = ReadImage((u32 *)dest, (s32)src, (s32)sendSize, &s_cbData);
}
}
remainSize -= sendSize;
srcAdd += sendSize;
destAdd += sendSize;
size -= sendSize;
src += sendSize;
dest += sendSize;
}
#ifndef DEBUG_USED_CARD_SLOT_B_
@ -975,11 +973,13 @@ static HotSwState ReadCardData(u32 src, u32 dest, u32 size)
#else
UnlockExCard(s_CardLockID);
#endif
OS_TPrintf("%s %d\n", __FUNCTION__, __LINE__);
SYSMi_GetWork()->flags.hotsw.isCardReadCompleted = TRUE;
return HOTSW_SUCCESS;
if(result){
return CARD_READ_SUCCESS;
}
else{
return CARD_READ_UNKNOWN_ERROR;
}
}
#endif
@ -1674,6 +1674,17 @@ static void HotSwThread(void *arg)
FinalizeHotSw( msg->apli );
}
#ifdef USE_WRAM_LOAD
if( msg->read == TRUE ){
SYSMi_GetWork()->flags.hotsw.isCardReadCompleted = FALSE;
SYSMi_GetWork()->cardReadParam.result = ReadCardData(SYSMi_GetWork()->cardReadParam.src,
SYSMi_GetWork()->cardReadParam.dest,
SYSMi_GetWork()->cardReadParam.size);
SYSMi_GetWork()->flags.hotsw.isCardReadCompleted = TRUE;
continue;
}
#endif
while(1){
if( !SYSMi_GetWork()->flags.hotsw.isEnableHotSW ) {
SYSMi_GetWork()->flags.hotsw.is1stCardChecked = TRUE;
@ -2156,30 +2167,33 @@ static void InterruptCallbackPxi(PXIFifoTag tag, u32 data, BOOL err)
d.data = data;
OS_TPrintf("... Pxi Message - value:%x ctrl:%x finalize:%x read:%x bootType:%x\n",
d.msg.value, d.msg.ctrl, d.msg.finalize, d.msg.read, d.msg.bootType);
#ifndef USE_WRAM_LOAD
OS_TPrintf("... Pxi Message - value:%x ctrl:%x finalize:%x bootType:%x\n",
d.msg.value, d.msg.ctrl, d.msg.finalize, d.msg.bootType);
#else
OS_TPrintf("... Pxi Message - value:%x ctrl:%x finalize:%x read:%x bootType:%x\n",
d.msg.value, d.msg.ctrl, d.msg.finalize, d.msg.read, d.msg.bootType);
if(!d.msg.read){
HotSwThreadData.hotswPxiMsg[HotSwThreadData.idx_ctrl].ctrl = (d.msg.ctrl) ? TRUE : FALSE;
HotSwThreadData.hotswPxiMsg[HotSwThreadData.idx_ctrl].finalize = (d.msg.finalize) ? TRUE : FALSE;
HotSwThreadData.hotswPxiMsg[HotSwThreadData.idx_ctrl].value = d.msg.value;
HotSwThreadData.hotswPxiMsg[HotSwThreadData.idx_ctrl].apli = (HotSwApliType)d.msg.bootType;
/*
if(d.msg.read){
OS_PutString("--- ARM7\n");
OS_TPrintf("src : 0x%08x\n", SYSMi_GetWork()->cardReadParam.src);
OS_TPrintf("dst : 0x%08x\n", SYSMi_GetWork()->cardReadParam.dest);
OS_TPrintf("size : 0x%08x\n", SYSMi_GetWork()->cardReadParam.size);
}*/
// メッセージ送信
OS_SendMessage(&HotSwThreadData.hotswQueue, (OSMessage *)&HotSwThreadData.hotswPxiMsg[HotSwThreadData.idx_ctrl], OS_MESSAGE_NOBLOCK);
// メッセージインデックスをインクリメント
HotSwThreadData.idx_ctrl = (HotSwThreadData.idx_ctrl+1) % HOTSW_CTRL_MSG_NUM;
}
else{
#ifdef USE_WRAM_LOAD
OS_PutString("--- ARM7\n");
OS_TPrintf("src : 0x%08x\n", SYSMi_GetWork()->cardReadParam.src);
OS_TPrintf("dst : 0x%08x\n", SYSMi_GetWork()->cardReadParam.dest);
OS_TPrintf("size : 0x%08x\n", SYSMi_GetWork()->cardReadParam.size);
ReadCardData(SYSMi_GetWork()->cardReadParam.src, SYSMi_GetWork()->cardReadParam.dest, SYSMi_GetWork()->cardReadParam.size);
HotSwThreadData.hotswPxiMsg[HotSwThreadData.idx_ctrl].read = (d.msg.read) ? TRUE : FALSE;
#endif
}
HotSwThreadData.hotswPxiMsg[HotSwThreadData.idx_ctrl].ctrl = (d.msg.ctrl) ? TRUE : FALSE;
HotSwThreadData.hotswPxiMsg[HotSwThreadData.idx_ctrl].finalize = (d.msg.finalize) ? TRUE : FALSE;
HotSwThreadData.hotswPxiMsg[HotSwThreadData.idx_ctrl].value = d.msg.value;
HotSwThreadData.hotswPxiMsg[HotSwThreadData.idx_ctrl].apli = (HotSwApliType)d.msg.bootType;
// メッセージ送信
OS_SendMessage(&HotSwThreadData.hotswQueue, (OSMessage *)&HotSwThreadData.hotswPxiMsg[HotSwThreadData.idx_ctrl], OS_MESSAGE_NOBLOCK);
// メッセージインデックスをインクリメント
HotSwThreadData.idx_ctrl = (HotSwThreadData.idx_ctrl+1) % HOTSW_CTRL_MSG_NUM;
}

12
build/libraries_sysmenu/hotsw/ARM9/src/hotsw_ctrl.c
View File

@ -99,7 +99,7 @@ BOOL HOTSW_isCardLoadCompleted(void)
ARM7側
*---------------------------------------------------------------------------*/
#ifdef USE_WRAM_LOAD
void HOTSW_ReadCardData(void* src, void* dest, u32 size)
CardDataReadState HOTSW_ReadCardData(void* src, void* dest, u32 size)
{
HotSwPxiMessage msg;
@ -110,12 +110,6 @@ void HOTSW_ReadCardData(void* src, void* dest, u32 size)
SYSMi_GetWork()->cardReadParam.size = size;
DC_FlushRange( &SYSMi_GetWork()->cardReadParam, sizeof(CardReadParam) );
OS_PutString("--- ARM9\n");
OS_TPrintf("src : 0x%08x\n", SYSMi_GetWork()->cardReadParam.src);
OS_TPrintf("dst : 0x%08x\n", SYSMi_GetWork()->cardReadParam.dest);
OS_TPrintf("size : 0x%08x\n", SYSMi_GetWork()->cardReadParam.size);
DC_FlushRange( dest, size );
msg.msg.read = TRUE;
@ -128,8 +122,10 @@ void HOTSW_ReadCardData(void* src, void* dest, u32 size)
// [TODO] ARM7側でリードが終了してステートが返ってくるのを待つ
while (!SYSMi_GetWork()->flags.hotsw.isCardReadCompleted)
{
// do nothing
}
return SYSMi_GetWork()->cardReadParam.result;
}
#endif

68
include/sysmenu/hotsw/common/hotsw.h
View File

@ -35,12 +35,12 @@ typedef enum HotSwMessageType{
} HotSwMessageType;
typedef enum ModeType{
HOTSW_MODE1,
HOTSW_MODE1 = 0,
HOTSW_MODE2
} ModeType;
typedef enum HotSwApliType{
HOTSW_APLITYPE_CARD,
HOTSW_APLITYPE_CARD = 0,
HOTSW_APLITYPE_NTR_NAND,
HOTSW_APLITYPE_TWL_NAND
} HotSwApliType;
@ -65,42 +65,14 @@ typedef struct HotSwMessage{
u32 value;
BOOL ctrl;
BOOL finalize;
BOOL read;
HotSwMessageType type;
HotSwApliType apli;
} HotSwMessage;
// Function prototype -------------------------------------------------------
// 活栓挿抜処理の初期化
void HOTSW_Init(u32 threadPrio);
// カードの存在判定
BOOL HOTSW_IsCardExist(void);
// カードにアクセスできる状態か判定
BOOL HOTSW_IsCardAccessible(void);
// Boot Segment バッファの指定
void HOTSW_SetBootSegmentBuffer(void* buf, u32 size);
// Secure Segment バッファの指定
void HOTSW_SetSecureSegmentBuffer(ModeType type ,void* buf, u32 size);
// Romエミュレーション情報を格納しているバッファのポインタを返す
SDK_INLINE void* HOTSW_GetRomEmulationBuffer(void)
{
return (void*)&SYSMi_GetWork()->romEmuInfo;
}
// ISデバッガ上で動作しているか
BOOL HOTSWi_IsRunOnDebugger(void);
// ROMをエミュレーションしているか
BOOL HOTSWi_IsRomEmulation(void);
// デバッガ通信用にカードスロットの電源をONにする。
void HOTSWi_TurnCardPowerOn(u32 slot);
// --- ARM9
#ifdef SDK_ARM9
// PXI通信でARM7に活線挿抜有効無効を通知
void HOTSW_EnableHotSWAsync( BOOL enable );
@ -116,14 +88,44 @@ BOOL HOTSW_isCardLoadCompleted(void);
#ifdef USE_WRAM_LOAD
// カードデータを読み出す関数
void HOTSW_ReadCardData(void* src, void* dest, u32 size);
CardDataReadState HOTSW_ReadCardData(void* src, void* dest, u32 size);
// カードがゲームモードになったかどうか
BOOL HOTSW_isGameMode(void);
#endif
// --- ARM7
#else
// 活栓挿抜処理の初期化
void HOTSW_Init(u32 threadPrio);
// カードの存在判定
BOOL HOTSW_IsCardExist(void);
// カードにアクセスできる状態か判定
BOOL HOTSW_IsCardAccessible(void);
// Boot Segment バッファの指定
void HOTSW_SetBootSegmentBuffer(void* buf, u32 size);
// Secure Segment バッファの指定
void HOTSW_SetSecureSegmentBuffer(ModeType type ,void* buf, u32 size);
// ISデバッガ上で動作しているか
BOOL HOTSWi_IsRunOnDebugger(void);
// ROMをエミュレーションしているか
BOOL HOTSWi_IsRomEmulation(void);
// デバッガ通信用にカードスロットの電源をONにする。
void HOTSWi_TurnCardPowerOn(u32 slot);
#endif
// Romエミュレーション情報を格納しているバッファのポインタを返す
SDK_INLINE void* HOTSW_GetRomEmulationBuffer(void)
{
return (void*)&SYSMi_GetWork()->romEmuInfo;
}
#ifdef __cplusplus
} /* extern "C" */

15
include/sysmenu/sysmenu_lib/common/sysmenu_work.h
View File

@ -35,6 +35,14 @@ typedef enum SYSMCloneBootMode {
}
SYSMCloneBootMode;
typedef enum CardDataReadState {
CARD_READ_SUCCESS = 0,
CARD_READ_PULLED_OUT_ERROR,
CARD_READ_MODE_ERROR,
CARD_READ_UNKNOWN_ERROR
}
CardDataReadState;
// NAMTitleIDをHiLoに分割してアクセスする場合に使用
typedef struct TitleID_HiLo {
u8 Lo[ 4 ];
@ -43,9 +51,10 @@ typedef struct TitleID_HiLo {
// WRAM経由でカードデータを読み込む場合に使用
typedef struct CardReadParam {
u32 src;
u32 dest;
u32 size;
u32 src;
u32 dest;
u32 size;
CardDataReadState result;
}CardReadParam;
//----------------------------------------------------------------------