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Merge branch 'master' into decompile_battle_controllers

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DizzyEggg
2017-10-22 18:47:06 +02:00
parent df4e32a307 1bab62e1cd
commit f77dcef59d
16 changed files with 1849 additions and 2675 deletions
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209
src/clear_save_data_screen.c Executable file
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#include "global.h"
#include "task.h"
#include "menu.h"
#include "text.h"
#include "sound.h"
#include "main.h"
#include "save.h"
#include "palette.h"
#include "gpu_regs.h"
#include "bg.h"
#include "text_window.h"
#include "songs.h"
extern u8 gText_ClearAllSaveData[];
extern u8 gText_ClearingData[];
extern u16 gUnknown_0860F074[];
static void Task_DoClearSaveDataScreenYesNo(u8);
static void Task_ClearSaveDataScreenYesNoChoice(u8);
static void Task_ClearSaveData(u8);
static bool8 SetupClearSaveDataScreen(void);
static void CB2_FadeAndDoReset(void);
static void InitClearSaveDataScreenWindows(void);
static const struct BgTemplate sClearSaveBgTemplates[2] =
{
{
.bg = 0,
.charBaseIndex = 0,
.mapBaseIndex = 31,
.screenSize = 0,
.paletteMode = 0,
.priority = 0,
.baseTile = 0,
},
{
.bg = 3,
.charBaseIndex = 0,
.mapBaseIndex = 30,
.screenSize = 0,
.paletteMode = 0,
.priority = 1,
.baseTile = 0,
},
};
static const struct WindowTemplate sClearSaveTextWindow[] =
{
{
.priority = 0,
.tilemapLeft = 3,
.tilemapTop = 15,
.width = 26,
.height = 4,
.paletteNum = 15,
.baseBlock = 11,
},
DUMMY_WIN_TEMPLATE
};
static const struct WindowTemplate sClearSaveYesNo[] =
{
{
.priority = 0,
.tilemapLeft = 3,
.tilemapTop = 2,
.width = 5,
.height = 4,
.paletteNum = 15,
.baseBlock = 115,
}
};
void CB2_InitClearSaveDataScreen(void)
{
if(SetupClearSaveDataScreen())
CreateTask(Task_DoClearSaveDataScreenYesNo, 0);
}
static void Task_DoClearSaveDataScreenYesNo(u8 taskId)
{
SetWindowBorderStyle(0, 0, 2, 14);
PrintTextOnWindow(0, 1, gText_ClearAllSaveData, 0, 1, 0, 0);
CreateYesNoMenu(sClearSaveYesNo, 2, 14, 1);
gTasks[taskId].func = Task_ClearSaveDataScreenYesNoChoice;
}
static void Task_ClearSaveDataScreenYesNoChoice(u8 taskId)
{
switch(sub_8198C58())
{
case 0:
FillWindowPixelBuffer(0, 17);
PrintTextOnWindow(0, 1, gText_ClearingData, 0, 1, 0, 0);
gTasks[taskId].func = Task_ClearSaveData;
break;
case 1:
case -1:
PlaySE(SE_SELECT);
DestroyTask(taskId);
SetMainCallback2(CB2_FadeAndDoReset);
}
}
static void Task_ClearSaveData(u8 taskId)
{
ClearSaveData();
DestroyTask(taskId);
SetMainCallback2(CB2_FadeAndDoReset);
}
static void MainCB(void)
{
RunTasks();
UpdatePaletteFade();
}
static void VBlankCB(void)
{
TransferPlttBuffer();
}
static bool8 SetupClearSaveDataScreen(void)
{
u16 i;
switch(gMain.state)
{
case 0:
default:
SetVBlankCallback(NULL);
SetGpuReg(REG_OFFSET_DISPCNT, DISPCNT_MODE_0);
SetGpuReg(REG_OFFSET_BG0HOFS, 0);
SetGpuReg(REG_OFFSET_BG0VOFS, 0);
SetGpuReg(REG_OFFSET_BG3HOFS, 0);
SetGpuReg(REG_OFFSET_BG3VOFS, 0);
SetGpuReg(REG_OFFSET_WIN0H, 0);
SetGpuReg(REG_OFFSET_WIN0V, 0);
SetGpuReg(REG_OFFSET_WININ, 0);
SetGpuReg(REG_OFFSET_WINOUT, 0);
SetGpuReg(REG_OFFSET_BLDCNT, 0);
SetGpuReg(REG_OFFSET_BLDALPHA, 0);
SetGpuReg(REG_OFFSET_BLDY, 0);
DmaFill16(3, 0, (void *)VRAM, VRAM_SIZE);
DmaFill32(3, 0, (void *)OAM, OAM_SIZE);
DmaFill16(3, 0, (void *)(PLTT + 2), PLTT_SIZE - 2);
ResetPaletteFade();
gPlttBufferUnfaded[0] = 0x7fff;
gPlttBufferFaded[0] = 0x7fff;
gPlttBufferUnfaded[1] = 0x3945;
gPlttBufferFaded[1] = 0x3945;
for (i = 0; i < 0x10; i++)
((u16 *)(VRAM + 0x20))[i] = 0x1111;
for (i = 0; i < 0x400; i++)
((u16 *)(VRAM + 0xF000))[i] = 0x0001;
ResetTasks();
ResetSpriteData();
ResetBgsAndClearDma3BusyFlags(0);
InitBgsFromTemplates(0, sClearSaveBgTemplates, ARRAY_COUNT(sClearSaveBgTemplates));
SetGpuReg(REG_OFFSET_DISPCNT, DISPCNT_OBJ_ON | DISPCNT_OBJ_1D_MAP);
ShowBg(0);
ShowBg(3);
SetGpuReg(REG_OFFSET_BLDCNT, 0);
InitClearSaveDataScreenWindows();
BeginNormalPaletteFade(0x0000FFFF, 0, 0x10, 0, 0xFFFF);
EnableInterrupts(1);
SetVBlankCallback(VBlankCB);
gMain.state = 1;
break;
case 1:
UpdatePaletteFade();
if(!gPaletteFade.active)
{
SetMainCallback2(MainCB);
return TRUE;
}
}
return FALSE;
}
static void CB2_FadeAndDoReset(void)
{
switch(gMain.state)
{
case 0:
default:
BeginNormalPaletteFade(0x0000FFFF, 0, 0, 0x10, 0xFFFF);
gMain.state = 1;
break;
case 1:
UpdatePaletteFade();
if(!gPaletteFade.active)
{
FreeAllWindowBuffers();
DoSoftReset();
}
}
}
static void InitClearSaveDataScreenWindows(void)
{
InitWindows(sClearSaveTextWindow);
DeactivateAllTextPrinters();
FillWindowPixelBuffer(0, 0);
sub_80987D4(0, 0, 2, 224);
LoadPalette(gUnknown_0860F074, 0xF0, 0x20);
}

4
src/librfu_intr.c Normal file
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#include "global.h"
#include "main.h"
//TODO: decompile asm/librfu_intr.s to here

109
src/librfu_rfu.c Normal file
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#include "global.h"
#include "main.h"
#include "librfu.h"
struct RfuUnk1
{
u8 unk_0[0x14];
u32 unk_14;
u32 unk_18;
struct RfuIntrStruct unk_1c;
};
struct RfuUnk2
{
u8 unk_0[0x68];
u32 unk_68;
u32 unk_6c;
u8 unk_70[0x70];
};
struct RfuUnk3
{
u32 unk_0;
u32 unk_4;
u8 unk_8[0xD4];
u32 unk_dc;
};
extern u32 *gUnknown_03007890;
extern u32 *gUnknown_03007894;
extern struct RfuUnk3* gUnknown_03007898;
extern struct RfuUnk2* gUnknown_03007880[4];
extern struct RfuUnk1* gUnknown_03007870[4];
extern void* sub_82E53F4;
extern void rfu_STC_clearAPIVariables(void);
// Nonmatching, only register differences
/*u16 rfu_initializeAPI(u32 *unk0, u16 unk1, IntrFunc *interrupt, bool8 copyInterruptToRam)
{
u16 i;
u16 *v13;
u16 *v12;
u16 num;
if (((u32)unk0 & 0xF000000) == 0x2000000 && copyInterruptToRam)
{
return 2;
}
if ((u32)unk0 & 3)
return 2;
// Nintendo pls, just use a ternary for once
if (copyInterruptToRam)
{
// An assert/debug print may have existed before, ie
// printf("%s %u < %u", "somefile.c:12345", unk1, num)
// to push this into r3?
num = 0xe64;
if (unk1 < num)
return 1;
}
if (copyInterruptToRam == FALSE)
{
num = 0x504; // same as above, this should be r3 not r0
if (unk1 < num)
return 1;
}
gUnknown_03007890 = unk0;
gUnknown_03007894 = unk0 + (0xB4 / sizeof(u32));
gUnknown_03007898 = (struct RfuUnk3*)(unk0 + (0xDC / sizeof(u32)));
gUnknown_03007880[0] = (struct RfuUnk2*)(unk0 + (0x1BC / sizeof(u32)));
gUnknown_03007870[0] = (struct RfuUnk1*)(unk0 + (0x37C / sizeof(u32)));
for (i = 1; i < 4; i++, num)
{
gUnknown_03007880[i] = (struct RfuUnk2*)&gUnknown_03007880[i-1]->unk_70;
gUnknown_03007870[i] = (struct RfuUnk1*)&gUnknown_03007870[i-1]->unk_1c;
}
gUnknown_03007898->unk_dc = (u32)&gUnknown_03007870[3]->unk_1c;
STWI_init_all(&gUnknown_03007870[3]->unk_1c, interrupt, copyInterruptToRam);
rfu_STC_clearAPIVariables();
for (i = 0; i < 4; i++)
{
gUnknown_03007880[i]->unk_68 = 0;
gUnknown_03007880[i]->unk_6c = 0;
gUnknown_03007870[i]->unk_14 = 0;
gUnknown_03007870[i]->unk_18 = 0;
}
// Not matching, register differences
v12 = (u16*)((u32)&sub_82E53F4 & ~1);
v13 = (u16*)gUnknown_03007898->unk_8;
for (i = 47; i != 0xFFFF; i--)
{
*v13 = *v12;
++v12;
++v13;
}
gUnknown_03007898->unk_4 = (u32)(&gUnknown_03007898->unk_8[1]);
return 0;
}*/

687
src/librfu_stwi.c Normal file
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#include "global.h"
#include "librfu.h"
extern IntrFunc IntrSIO32(void);
extern void STWI_stop_timer(void);
void STWI_init_Callback_M(void);
void STWI_init_Callback_S(void);
void STWI_set_Callback_M(void * callback);
void STWI_set_Callback_S(void * callback);
u16 STWI_init(u8 request);
int STWI_start_Command(void);
void STWI_intr_timer(void);
void STWI_set_timer(u8 unk);
int STWI_restart_Command(void);
int STWI_reset_ClockCounter(void);
void STWI_init_all(struct RfuIntrStruct *interruptStruct, IntrFunc *interrupt, bool8 copyInterruptToRam)
{
// If we're copying our interrupt into RAM, DMA it to block1 and use
// block2 for our RfuStruct, otherwise block1 holds the RfuStruct.
// interrupt usually is a pointer to gIntrTable[1]
if (copyInterruptToRam == TRUE)
{
*interrupt = (IntrFunc)interruptStruct->block1;
DmaCopy16(3, &IntrSIO32, interruptStruct->block1, 0x960);
gRfuState = (struct RfuStruct*)interruptStruct->block2;
}
else
{
*interrupt = (IntrFunc)IntrSIO32;
gRfuState = (struct RfuStruct*)interruptStruct->block1;
}
gRfuState->rxPacket = (union RfuPacket*)interruptStruct->rxPacketAlloc;
gRfuState->txPacket = (union RfuPacket*)interruptStruct->txPacketAlloc;
gRfuState->msMode = 1;
gRfuState->unk_0 = 0;
gRfuState->txParams = 0;
gRfuState->unk_5 = 0;
gRfuState->unk_7 = 0;
gRfuState->unk_8 = 0;
gRfuState->unk_9 = 0;
gRfuState->timerState = 0;
gRfuState->timerActive = 0;
gRfuState->unk_12 = 0;
gRfuState->unk_15 = 0;
gRfuState->unk_2c = 0;
REG_RCNT = 0x100; //TODO: mystery bit?
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_115200_BPS;
STWI_init_Callback_M();
STWI_init_Callback_S();
IntrEnable(INTR_FLAG_SERIAL);
}
void STWI_init_timer(IntrFunc *interrupt, int timerSelect)
{
*interrupt = STWI_intr_timer;
gRfuState->timerSelect = timerSelect;
IntrEnable(INTR_FLAG_TIMER0 << gRfuState->timerSelect);
}
void AgbRFU_SoftReset(void)
{
vu16 *timerL;
vu16 *timerH;
REG_RCNT = 0x8000;
REG_RCNT = 0x80A0; // all these bits are undocumented
timerL = &REG_TMCNT_L(gRfuState->timerSelect);
timerH = &REG_TMCNT_H(gRfuState->timerSelect);
*timerH = 0;
*timerL = 0;
*timerH = 0x83;
while (*timerL <= 0x11)
REG_RCNT = 0x80A2;
*timerH = 3;
REG_RCNT = 0x80A0;
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_115200_BPS;
gRfuState->unk_0 = 0;
gRfuState->txParams = 0;
gRfuState->unk_5 = 0;
gRfuState->activeCommand = 0;
gRfuState->unk_7 = 0;
gRfuState->unk_8 = 0;
gRfuState->unk_9 = 0;
gRfuState->timerState = 0;
gRfuState->timerActive = 0;
gRfuState->unk_12 = 0;
gRfuState->msMode = 1;
gRfuState->unk_15 = 0;
gRfuState->unk_2c = 0;
}
void STWI_set_MS_mode(u8 mode)
{
gRfuState->msMode = mode;
}
u16 STWI_read_status(u8 index)
{
switch (index)
{
case 0:
return gRfuState->unk_12;
case 1:
return gRfuState->msMode;
case 2:
return gRfuState->unk_0;
case 3:
return gRfuState->activeCommand;
default:
return 0xFFFF;
}
}
void STWI_init_Callback_M(void)
{
STWI_set_Callback_M(0);
}
void STWI_init_Callback_S(void)
{
STWI_set_Callback_S(0);
}
void STWI_set_Callback_M(void *callback)
{
gRfuState->callbackM = callback;
}
void STWI_set_Callback_S(void *callback)
{
gRfuState->callbackS = callback;
}
void STWI_set_Callback_ID(u32 id)
{
gRfuState->callbackID = id;
}
u16 STWI_poll_CommandEnd(void)
{
while (gRfuState->unk_2c == TRUE)
;
return gRfuState->unk_12;
}
void STWI_send_ResetREQ(void)
{
if (!STWI_init(RFU_RESET))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_LinkStatusREQ(void)
{
if (!STWI_init(RFU_LINK_STATUS))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_VersionStatusREQ(void)
{
if (!STWI_init(RFU_VERSION_STATUS))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_SystemStatusREQ(void)
{
if (!STWI_init(RFU_SYSTEM_STATUS))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_SlotStatusREQ(void)
{
if (!STWI_init(RFU_SLOT_STATUS))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_ConfigStatusREQ(void)
{
if (!STWI_init(RFU_CONFIG_STATUS))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_GameConfigREQ(u8 * unk1, u8 *data)
{
u8 *packetBytes;
int i;
if (!STWI_init(RFU_GAME_CONFIG))
{
gRfuState->txParams = 6;
//TODO: what is unk1
packetBytes = gRfuState->txPacket->rfuPacket8.data;
packetBytes += sizeof(u32);
*(u16*)packetBytes = *(u16*)unk1;
packetBytes += sizeof(u16);
unk1 += sizeof(u16);
for (i = 0; i < 14; i++)
{
*packetBytes = *unk1;
packetBytes++;
unk1++;
}
for (i = 0; i < 8; i++)
{
*packetBytes = *data;
packetBytes++;
data++;
}
STWI_start_Command();
}
}
void STWI_send_SystemConfigREQ(u16 unk1, u8 unk2, u8 unk3)
{
if (!STWI_init(RFU_SYSTEM_CONFIG))
{
u8 *packetBytes;
gRfuState->txParams = 1;
packetBytes = gRfuState->txPacket->rfuPacket8.data;
packetBytes += sizeof(u32);
*packetBytes++ = unk3;
*packetBytes++ = unk2;
*(u16*)packetBytes = unk1;
STWI_start_Command();
}
}
void STWI_send_SC_StartREQ(void)
{
if (!STWI_init(RFU_SC_START))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_SC_PollingREQ(void)
{
if (!STWI_init(RFU_SC_POLLING))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_SC_EndREQ(void)
{
if (!STWI_init(RFU_SC_END))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_SP_StartREQ(void)
{
if (!STWI_init(RFU_SP_START))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_SP_PollingREQ(void)
{
if (!STWI_init(RFU_SP_POLLING))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_SP_EndREQ(void)
{
if (!STWI_init(RFU_SP_END))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_CP_StartREQ(u16 unk1)
{
if (!STWI_init(RFU_CP_START))
{
gRfuState->txParams = 1;
gRfuState->txPacket->rfuPacket32.data[0] = unk1;
STWI_start_Command();
}
}
void STWI_send_CP_PollingREQ(void)
{
if (!STWI_init(RFU_CP_POLLING))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_CP_EndREQ(void)
{
if (!STWI_init(RFU_CP_END))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_DataTxREQ(void *in, u8 size)
{
if (!STWI_init(RFU_DATA_TX))
{
u8 txParams = (size / sizeof(u32));
if (size & (sizeof(u32) - 1))
txParams += 1;
gRfuState->txParams = txParams;
CpuCopy32(in, gRfuState->txPacket->rfuPacket32.data, gRfuState->txParams * sizeof(u32));
STWI_start_Command();
}
}
void STWI_send_DataTxAndChangeREQ(void *in, u8 size)
{
if (!STWI_init(RFU_DATA_TX_AND_CHANGE))
{
u8 txParams = (size / sizeof(u32));
if (size & (sizeof(u32) - 1))
txParams += 1;
gRfuState->txParams = txParams;
CpuCopy32(in, gRfuState->txPacket->rfuPacket32.data, gRfuState->txParams * sizeof(u32));
STWI_start_Command();
}
}
void STWI_send_DataRxREQ(void)
{
if (!STWI_init(RFU_DATA_RX))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_MS_ChangeREQ(void)
{
if (!STWI_init(RFU_MS_CHANGE))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_DataReadyAndChangeREQ(u8 unk)
{
if (!STWI_init(RFU_DATA_READY_AND_CHANGE))
{
if (!unk)
{
gRfuState->txParams = 0;
}
else
{
u8 *packetBytes;
gRfuState->txParams = 1;
packetBytes = gRfuState->txPacket->rfuPacket8.data;
packetBytes += sizeof(u32);
*packetBytes++ = unk;
*packetBytes++ = 0;
*packetBytes++ = 0;
*packetBytes = 0;
}
STWI_start_Command();
}
}
void STWI_send_DisconnectedAndChangeREQ(u8 unk0, u8 unk1)
{
if (!STWI_init(RFU_DISCONNECTED_AND_CHANGE))
{
u8 *packetBytes;
gRfuState->txParams = 1;
packetBytes = gRfuState->txPacket->rfuPacket8.data;
packetBytes += sizeof(u32);
*packetBytes++ = unk0;
*packetBytes++ = unk1;
*packetBytes++ = 0;
*packetBytes = 0;
STWI_start_Command();
}
}
void STWI_send_ResumeRetransmitAndChangeREQ(void)
{
if (!STWI_init(RFU_RESUME_RETRANSMIT_AND_CHANGE))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_DisconnectREQ(u8 unk)
{
if (!STWI_init(RFU_DISCONNECT))
{
gRfuState->txParams = 1;
gRfuState->txPacket->rfuPacket32.data[0] = unk;
STWI_start_Command();
}
}
void STWI_send_TestModeREQ(u8 unk0, u8 unk1)
{
if (!STWI_init(RFU_TEST_MODE))
{
gRfuState->txParams = 1;
gRfuState->txPacket->rfuPacket32.data[0] = unk0 | (unk1 << 8);
STWI_start_Command();
}
}
void STWI_send_CPR_StartREQ(u16 unk0, u16 unk1, u8 unk2)
{
u32 *packetData;
u32 arg1;
if (!STWI_init(RFU_CPR_START))
{
gRfuState->txParams = 2;
arg1 = unk1 | (unk0 << 16);
packetData = gRfuState->txPacket->rfuPacket32.data;
packetData[0] = arg1;
packetData[1] = unk2;
STWI_start_Command();
}
}
void STWI_send_CPR_PollingREQ(void)
{
if (!STWI_init(RFU_CPR_POLLING))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_CPR_EndREQ(void)
{
if (!STWI_init(RFU_CPR_END))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_send_StopModeREQ(void)
{
if (!STWI_init(RFU_STOP_MODE))
{
gRfuState->txParams = 0;
STWI_start_Command();
}
}
void STWI_intr_timer(void)
{
switch (gRfuState->timerState)
{
//TODO: Make an enum for these
case 2:
gRfuState->timerActive = 1;
STWI_set_timer(50);
break;
case 1:
case 4:
STWI_stop_timer();
STWI_restart_Command();
break;
case 3:
gRfuState->timerActive = 1;
STWI_stop_timer();
STWI_reset_ClockCounter();
if (gRfuState->callbackM)
gRfuState->callbackM(255, 0);
break;
}
}
void STWI_set_timer(u8 unk)
{
vu16 *timerL;
vu16 *timerH;
timerL = &REG_TMCNT_L(gRfuState->timerSelect);
timerH = &REG_TMCNT_H(gRfuState->timerSelect);
REG_IME = 0;
switch (unk)
{
case 50:
*timerL = 0xFCCB;
gRfuState->timerState = 1;
break;
case 80:
*timerL = 0xFAE0;
gRfuState->timerState = 2;
break;
case 100:
*timerL = 0xF996;
gRfuState->timerState = 3;
break;
case 130:
*timerL = 0xF7AD;
gRfuState->timerState = 4;
break;
}
*timerH = TIMER_ENABLE | TIMER_INTR_ENABLE | TIMER_1024CLK;
REG_IF = INTR_FLAG_TIMER0 << gRfuState->timerSelect;
REG_IME = 1;
}
void STWI_stop_timer(void)
{
gRfuState->timerState = 0;
REG_TMCNT_L(gRfuState->timerSelect) = 0;
REG_TMCNT_H(gRfuState->timerSelect) = 0;
}
u16 STWI_init(u8 request)
{
if (!REG_IME)
{
gRfuState->unk_12 = 6;
if (gRfuState->callbackM)
gRfuState->callbackM(request, gRfuState->unk_12);
return TRUE;
}
else if (gRfuState->unk_2c == TRUE)
{
gRfuState->unk_12 = 2;
gRfuState->unk_2c = FALSE;
if (gRfuState->callbackM)
gRfuState->callbackM(request, gRfuState->unk_12);
return TRUE;
}
else if(!gRfuState->msMode)
{
gRfuState->unk_12 = 4;
if (gRfuState->callbackM)
gRfuState->callbackM(request, gRfuState->unk_12, gRfuState);
return TRUE;
}
else
{
gRfuState->unk_2c = TRUE;
gRfuState->activeCommand = request;
gRfuState->unk_0 = 0;
gRfuState->txParams = 0;
gRfuState->unk_5 = 0;
gRfuState->unk_7 = 0;
gRfuState->unk_8 = 0;
gRfuState->unk_9 = 0;
gRfuState->timerState = 0;
gRfuState->timerActive = 0;
gRfuState->unk_12 = 0;
gRfuState->unk_15 = 0;
REG_RCNT = 0x100;
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_115200_BPS;
return FALSE;
}
}
int STWI_start_Command()
{
u16 imeTemp;
// Yes, it matters that it's casted to a u32...
*(u32*)gRfuState->txPacket->rfuPacket8.data = 0x99660000 | (gRfuState->txParams << 8) | gRfuState->activeCommand;
REG_SIODATA32 = gRfuState->txPacket->rfuPacket32.command;
gRfuState->unk_0 = 0;
gRfuState->unk_5 = 1;
imeTemp = REG_IME;
REG_IME = 0;
REG_IE |= (INTR_FLAG_TIMER0 << gRfuState->timerSelect);
REG_IE |= INTR_FLAG_SERIAL;
REG_IME = imeTemp;
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_MULTI_BUSY | SIO_115200_BPS;
return 0;
}
int STWI_restart_Command(void)
{
if (gRfuState->unk_15 <= 1)
{
gRfuState->unk_15++;
STWI_start_Command();
}
else
{
if (gRfuState->activeCommand == RFU_MS_CHANGE || gRfuState->activeCommand == RFU_DATA_TX_AND_CHANGE || gRfuState->activeCommand == RFU_UNK35 || gRfuState->activeCommand == RFU_RESUME_RETRANSMIT_AND_CHANGE)
{
gRfuState->unk_12 = 1;
gRfuState->unk_2c = 0;
if (gRfuState->callbackM)
gRfuState->callbackM(gRfuState->activeCommand, gRfuState->unk_12);
}
else
{
gRfuState->unk_12 = 1;
gRfuState->unk_2c = 0;
if (gRfuState->callbackM)
gRfuState->callbackM(gRfuState->activeCommand, gRfuState->unk_12);
gRfuState->unk_0 = 4; //TODO: what's 4
}
}
return 0;
}
int STWI_reset_ClockCounter()
{
gRfuState->unk_0 = 5; //TODO: what is 5
gRfuState->txParams = 0;
gRfuState->unk_5 = 0;
REG_SIODATA32 = (1 << 31);
REG_SIOCNT = 0;
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_115200_BPS;
REG_SIOCNT = (SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_115200_BPS) + 0x7F;
return 0;
}