pokeemerald/src/librfu_intr.c
2020-02-16 13:49:36 -05:00

403 lines
12 KiB
C

#include "global.h"
#include "librfu.h"
static void sio32intr_clock_master(void);
static void sio32intr_clock_slave(void);
static u16 handshake_wait(u16 slot);
static void STWI_set_timer_in_RAM(u8 count);
static void STWI_stop_timer_in_RAM(void);
static void STWI_init_slave(void);
static void Callback_Dummy_M(int reqCommandId, int error, void (*callbackM)());
static void Callback_Dummy_S(u16 reqCommandId, void (*callbackS)(u16));
static void Callback_Dummy_ID(void (*callbackId)(void));
void IntrSIO32(void)
{
if (gSTWIStatus->state == 10)
{
if (gSTWIStatus->callbackID != NULL)
Callback_Dummy_ID(gSTWIStatus->callbackID);
}
else
{
if (gSTWIStatus->msMode == AGB_CLK_MASTER)
sio32intr_clock_master();
else
sio32intr_clock_slave();
}
}
static void sio32intr_clock_master(void)
{
u32 regSIODATA32;
u32 ackLen;
STWI_set_timer_in_RAM(80);
regSIODATA32 = REG_SIODATA32;
if (gSTWIStatus->state == 0) // master send req
{
if (regSIODATA32 == 0x80000000)
{
if (gSTWIStatus->reqNext <= gSTWIStatus->reqLength)
{
REG_SIODATA32 = ((u32*)gSTWIStatus->txPacket->rfuPacket8.data)[gSTWIStatus->reqNext];
gSTWIStatus->reqNext++;
}
else
{
gSTWIStatus->state = 1; // master wait ack
REG_SIODATA32 = 0x80000000;
}
}
else
{
STWI_stop_timer_in_RAM();
STWI_set_timer_in_RAM(130);
return;
}
}
else if (gSTWIStatus->state == 1) // master wait ack
{
if ((regSIODATA32 & 0xFFFF0000) == 0x99660000)
{
gSTWIStatus->ackNext = 0;
((u32*)gSTWIStatus->rxPacket)[gSTWIStatus->ackNext] = regSIODATA32;
gSTWIStatus->ackNext++;
gSTWIStatus->ackActiveCommand = regSIODATA32;
gSTWIStatus->ackLength = ackLen = regSIODATA32 >> 8;
if ((ackLen = gSTWIStatus->ackLength) >= gSTWIStatus->ackNext)
{
gSTWIStatus->state = 2; // master receive ack
REG_SIODATA32 = 0x80000000;
}
else
{
gSTWIStatus->state = 3; // master done ack
}
}
else
{
STWI_stop_timer_in_RAM();
STWI_set_timer_in_RAM(130);
return;
}
}
else if (gSTWIStatus->state == 2) // master receive ack
{
((u32*)gSTWIStatus->rxPacket)[gSTWIStatus->ackNext] = regSIODATA32;
gSTWIStatus->ackNext++;
if (gSTWIStatus->ackLength < gSTWIStatus->ackNext)
gSTWIStatus->state = 3; // master done ack
else
REG_SIODATA32 = 0x80000000;
}
if (handshake_wait(1) == 1)
return;
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_115200_BPS | SIO_MULTI_SD;
if (handshake_wait(0) == 1)
return;
STWI_stop_timer_in_RAM();
if (gSTWIStatus->state == 3) // master done ack
{
if (
gSTWIStatus->ackActiveCommand == (0x80 | ID_MS_CHANGE_REQ)
|| gSTWIStatus->ackActiveCommand == (0x80 | ID_DATA_TX_AND_CHANGE_REQ)
|| gSTWIStatus->ackActiveCommand == (0x80 | ID_UNK35_REQ)
|| gSTWIStatus->ackActiveCommand == (0x80 | ID_RESUME_RETRANSMIT_AND_CHANGE_REQ)
)
{
gSTWIStatus->msMode = AGB_CLK_SLAVE;
REG_SIODATA32 = 0x80000000;
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_57600_BPS;
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_57600_BPS | SIO_ENABLE;
gSTWIStatus->state = 5; // slave receive req init
}
else
{
if (gSTWIStatus->ackActiveCommand == 0xEE)
{
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_115200_BPS;
gSTWIStatus->state = 4; // error
gSTWIStatus->error = ERR_REQ_CMD_ACK_REJECTION;
}
else
{
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_115200_BPS;
gSTWIStatus->state = 4; // error
}
}
gSTWIStatus->sending = 0;
if (gSTWIStatus->callbackM != NULL)
Callback_Dummy_M(gSTWIStatus->reqActiveCommand, gSTWIStatus->error, gSTWIStatus->callbackM);
}
else
{
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_115200_BPS;
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_115200_BPS | SIO_ENABLE;
}
}
static void sio32intr_clock_slave(void)
{
u32 regSIODATA32;
u32 r0;
register u32 reqLen asm("r2");
gSTWIStatus->timerActive = 0;
STWI_set_timer_in_RAM(100);
if (handshake_wait(0) == 1)
return;
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_57600_BPS | SIO_MULTI_SD;
regSIODATA32 = REG_SIODATA32;
if (gSTWIStatus->state == 5) // slave receive req init
{
((u32*)gSTWIStatus->rxPacket)[0] = regSIODATA32;
gSTWIStatus->reqNext = 1;
r0 = 0x99660000;
if ((regSIODATA32 >> 16) == (r0 >> 16))
{
gSTWIStatus->reqLength = reqLen = regSIODATA32 >> 8;
gSTWIStatus->reqActiveCommand = regSIODATA32;
if (gSTWIStatus->reqLength == 0)
{
if (
gSTWIStatus->reqActiveCommand == ID_MS_CHANGE_REQ
|| gSTWIStatus->reqActiveCommand == ID_DATA_READY_AND_CHANGE_REQ
|| gSTWIStatus->reqActiveCommand == ID_DISCONNECTED_AND_CHANGE_REQ
|| gSTWIStatus->reqActiveCommand == ID_UNK36_REQ
)
{
gSTWIStatus->ackActiveCommand = gSTWIStatus->reqActiveCommand + 0x80;
((u32*)gSTWIStatus->txPacket)[0] = 0x99660000 + gSTWIStatus->ackActiveCommand;
gSTWIStatus->ackLength = 0;
}
else
{
((u32*)gSTWIStatus->txPacket)[0] = 0x996601EE;
if (gSTWIStatus->reqActiveCommand >= 0x10 && gSTWIStatus->reqActiveCommand <= 0x3D)
{
((u32*)gSTWIStatus->txPacket)[1] = 1;
}
else
{
((u32*)gSTWIStatus->txPacket)[1] = 2;
}
gSTWIStatus->ackLength = 1;
gSTWIStatus->error = ERR_REQ_CMD_ACK_REJECTION;
}
REG_SIODATA32 = ((u32*)gSTWIStatus->txPacket)[0];
gSTWIStatus->ackNext = 1;
gSTWIStatus->state = 7; // slave send ack
}
else
{
REG_SIODATA32 = 0x80000000;
gSTWIStatus->reqNext = 1;
gSTWIStatus->state = 6; // slave receive req
}
}
else
{
STWI_stop_timer_in_RAM();
STWI_set_timer_in_RAM(100);
return;
}
}
else if (gSTWIStatus->state == 6) // slave receive req
{
((u32*)gSTWIStatus->rxPacket)[gSTWIStatus->reqNext] = regSIODATA32;
gSTWIStatus->reqNext++;
if (gSTWIStatus->reqLength < gSTWIStatus->reqNext)
{
if (
gSTWIStatus->reqActiveCommand == ID_DATA_READY_AND_CHANGE_REQ
|| gSTWIStatus->reqActiveCommand == ID_DISCONNECTED_AND_CHANGE_REQ
|| gSTWIStatus->reqActiveCommand == ID_UNK36_REQ
)
{
gSTWIStatus->ackActiveCommand = gSTWIStatus->reqActiveCommand + 0x80;
((u32*)gSTWIStatus->txPacket)[0] = 0x99660000 | gSTWIStatus->ackActiveCommand;
gSTWIStatus->ackLength = 0;
}
else
{
((u32*)gSTWIStatus->txPacket)[0] = 0x996601EE;
if (gSTWIStatus->reqActiveCommand >= 0x10 && gSTWIStatus->reqActiveCommand <= 0x3D)
{
((u32*)gSTWIStatus->txPacket)[1] = 1;
}
else
{
((u32*)gSTWIStatus->txPacket)[1] = 2;
}
gSTWIStatus->ackLength = 1;
gSTWIStatus->error = ERR_REQ_CMD_ACK_REJECTION;
}
REG_SIODATA32 = ((u32*)gSTWIStatus->txPacket)[0];
gSTWIStatus->ackNext = 1;
gSTWIStatus->state = 7; // slave send ack
}
else
{
REG_SIODATA32 = 0x80000000;
}
}
else if (gSTWIStatus->state == 7) // slave send ack
{
if (regSIODATA32 == 0x80000000)
{
if (gSTWIStatus->ackLength < gSTWIStatus->ackNext)
{
gSTWIStatus->state = 8; // slave done ack
}
else
{
REG_SIODATA32 = ((u32*)gSTWIStatus->txPacket)[gSTWIStatus->ackNext];
gSTWIStatus->ackNext++;
}
}
else
{
STWI_stop_timer_in_RAM();
STWI_set_timer_in_RAM(100);
return;
}
}
if (handshake_wait(1) == 1)
return;
if (gSTWIStatus->state == 8) // slave done ack
{
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_57600_BPS;
STWI_stop_timer_in_RAM();
if (gSTWIStatus->error == ERR_REQ_CMD_ACK_REJECTION)
{
STWI_init_slave();
if (gSTWIStatus->callbackS != NULL)
{
Callback_Dummy_S(0x1EE, gSTWIStatus->callbackS);
}
}
else
{
REG_SIODATA32 = 0;
REG_SIOCNT = 0;
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_115200_BPS;
gSTWIStatus->msMode = AGB_CLK_MASTER;
gSTWIStatus->state = 0; // master send req
if (gSTWIStatus->callbackS != NULL)
{
Callback_Dummy_S((gSTWIStatus->reqLength << 8) | (gSTWIStatus->reqActiveCommand), gSTWIStatus->callbackS);
}
}
}
else
{
REG_IME = 0;
if (REG_TM0CNT_H & TIMER_ENABLE)
{
if ((REG_TM0CNT_H & 0x03) == TIMER_1CLK)
{
while (REG_TM0CNT_L > 0xFF9B);
}
else
{
while (REG_TM0CNT_L > 0xFFFE);
}
}
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_57600_BPS;
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_57600_BPS | SIO_ENABLE;
REG_IME = 1;
}
}
static u16 handshake_wait(u16 slot)
{
do
{
if ((gSTWIStatus->timerActive & 0xFF) == 1)
{
gSTWIStatus->timerActive = 0;
return 1;
}
} while ((REG_SIOCNT & SIO_MULTI_SI) != (slot << SIO_MULTI_SI_SHIFT));
return 0;
}
static void STWI_set_timer_in_RAM(u8 count)
{
vu16* regTMCNTL = (vu16*)(REG_ADDR_TMCNT_L + gSTWIStatus->timerSelect * 4);
vu16* regTMCNTH = (vu16*)(REG_ADDR_TMCNT_H + gSTWIStatus->timerSelect * 4);
REG_IME = 0;
switch (count)
{
case 50:
*regTMCNTL = 0xFCCB;
gSTWIStatus->timerState = 1;
break;
case 80:
*regTMCNTL = 0xFAE0;
gSTWIStatus->timerState = 2;
break;
case 100:
*regTMCNTL = 0xF996;
gSTWIStatus->timerState = 3;
break;
case 130:
*regTMCNTL = 0xF7AD;
gSTWIStatus->timerState = 4;
break;
}
*regTMCNTH = TIMER_ENABLE | TIMER_64CLK | TIMER_256CLK | TIMER_INTR_ENABLE;
REG_IF = INTR_FLAG_TIMER0 << gSTWIStatus->timerSelect;
REG_IME = 1;
}
static void STWI_stop_timer_in_RAM(void)
{
gSTWIStatus->timerState = 0;
REG_TMCNT_L(gSTWIStatus->timerSelect) = 0;
REG_TMCNT_H(gSTWIStatus->timerSelect) = 0;
}
static void STWI_init_slave(void)
{
gSTWIStatus->state = 5; // slave receive req init
gSTWIStatus->msMode = AGB_CLK_SLAVE;
gSTWIStatus->reqLength = 0;
gSTWIStatus->reqNext = 0;
gSTWIStatus->reqActiveCommand = 0;
gSTWIStatus->ackLength = 0;
gSTWIStatus->ackNext = 0;
gSTWIStatus->ackActiveCommand = 0;
gSTWIStatus->timerState = 0;
gSTWIStatus->timerActive = 0;
gSTWIStatus->error = 0;
gSTWIStatus->recoveryCount = 0;
REG_SIOCNT = SIO_INTR_ENABLE | SIO_32BIT_MODE | SIO_57600_BPS | SIO_ENABLE;
}
NAKED
static void Callback_Dummy_M(int reqCommandId, int error, void (*callbackM)())
{
asm("bx r2");
}
NAKED
static void Callback_Dummy_S(u16 reqCommandId, void (*callbackS)(u16))
{
asm("bx r1");
}
NAKED
static void Callback_Dummy_ID(void (*callbackId)(void))
{
asm("bx r0");
}