pcsx2/unfree/fps2bios/kernel/iopload/sio2man/sio2man.c

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//[module] SIO2MAN
//[processor] IOP
//[type] ELF-IRX
//[size] ?(0x?)
//[bios] ?(0x?-0x?)
//[iopboot2] 21
//[loaded @] ?
//[name] sio2man
//[version] 0x101
//[memory map] 0xBF808200,0xBF808204,0xBF808208,0xBF80820C,
// 0xBF808210,0xBF808214,0xBF808218,0xBF80821C, 16 entries
// 0xBF808220,0xBF808224,0xBF808228,0xBF80822C, array
// 0xBF808230,0xBF808234,0xBF808238,0xBF80823C,
// 0xBF808240,0xBF808244,0xBF808248,0xBF80824C,
// 0xBF808250,0xBF808254,0xBF808258,0xBF80825C,
// 0xBF808260, 0xBF808268,0xBF80826C,
// 0xBF808270,0xBF808274,0xBF808278,0xBF80827C,
// 0xBF808280
//[handlers] -
//[entry point] _start, (export_stub)
//[made by] Herben
#include <tamtypes.h>
#include <stdio.h>
#include "kdmacman.h"
#include "kloadcore.h"
#include "kintrman.h"
#include <thbase.h>
#include <thevent.h>
struct sio2_packet {
u32 recvVal1; // 0x00
u32 sendArray1[4]; // 0x04-0x10
u32 sendArray2[4]; // 0x14-0x20
u32 recvVal2; // 0x24
u32 sendArray3[16]; // 0x28-0x64
u32 recvVal3; // 0x68
int sendSize; // 0x6C
int recvSize; // 0x70
u8 *sendBuf; // 0x74
u8 *recvBuf; // 0x78
u32 dmacAddress1;
u32 dmacSize1;
u32 dmacCount1;
u32 dmacAddress2;
u32 dmacSize2;
u32 dmacCount2;
};
struct sio2common {
int evid;
int thid;
};
struct sio2common common;
int sio2_initialized = 0;
struct sio2_packet *packetAddr;
int debug = 1;
#define _dprintf(fmt, args...) if (debug > 0) printf(fmt, ## args)
// if (debug > 0) printf("\033[0;32m" "sio2man: " "\033[0m" fmt, ## args)
int _start(void);
void nullSub(void);
int sio2_init(void);
void sio2_deInit(void);
void sio2_setCtrl(u32 arg0);
u32 sio2_getCtrl(void);
u32 sio2_getRecv1(void);
void sio2_setSend1(int entryNum, u32 val);
u32 sio2_getSend1(int entryNum);
void sio2_setSend2(int entryNum, u32 val);
u32 sio2_getSend2(int entryNum);
u32 sio2_getRecv2(void);
void sio2_setSend3(int entryNum, u32 val);
u32 sio2_getSend3(int entryNum);
u32 sio2_getRecv3(void);
void sio2_set8278(u32 arg0);
u32 sio2_get8278(void);
void sio2_set827C(u32 arg0);
u32 sio2_get827C(void);
void sio2_datain(u8 arg0);
u8 sio2_dataout(void);
void sio2_setIntr(u32 arg0);
u32 sio2_getIntr(void);
void sio2_signalExchange1(void);
void sio2_signalExchange2(void);
int sio2_packetExchange(struct sio2_packet *packet);
struct export sio2man_stub={
0x41C00000,
0,
VER(1, 2), // 1.2 => 0x102
0,
"sio2man",
(func)_start, // 0
(func)nullSub,
(func)sio2_deInit,
(func)nullSub,
(func)sio2_setCtrl, // 4
(func)sio2_getCtrl,
(func)sio2_getRecv1,
(func)sio2_setSend1,
(func)sio2_getSend1, // 8
(func)sio2_setSend2,
(func)sio2_getSend2,
(func)sio2_getRecv2,
(func)sio2_setSend3, // 12
(func)sio2_getSend3,
(func)sio2_getRecv3,
(func)sio2_set8278,
(func)sio2_get8278, // 16
(func)sio2_set827C,
(func)sio2_get827C,
(func)sio2_datain,
(func)sio2_dataout, // 20
(func)sio2_setIntr,
(func)sio2_getIntr,
(func)sio2_signalExchange1,
(func)sio2_signalExchange2, // 24
(func)sio2_packetExchange,
0
};
#define INUM_sio2 17
#define HTYPE_C 1
int _start(void) {
return sio2_init();
}
void nullSub(void) { return; }
void sio2_setCtrl(u32 arg0) {
*(u32 *) (0xBF808268) = arg0;
}
u32 sio2_getCtrl(void) {
return(*(u32 *) (0xBF808268));
}
u32 sio2_getRecv1(void) {
return(*(u32 *) (0xBF80826C));
}
void sio2_setSend1(int entryNum, u32 val) {
switch(entryNum) {
case 0:
*(u32 *) (0xBF808240) = val;
break;
case 1:
*(u32 *) (0xBF808248) = val;
break;
case 2:
*(u32 *) (0xBF808250) = val;
break;
case 3:
*(u32 *) (0xBF808258) = val;
break;
}
}
u32 sio2_getSend1(int entryNum) {
switch(entryNum) {
case 0:
return(*(u32 *) (0xBF808240));
case 1:
return(*(u32 *) (0xBF808248));
case 2:
return(*(u32 *) (0xBF808250));
case 3:
return(*(u32 *) (0xBF808258));
}
return(0);
}
void sio2_setSend2(int entryNum, u32 val) {
switch(entryNum) {
case 0:
*(u32 *) (0xBF808244) = val;
break;
case 1:
*(u32 *) (0xBF80824C) = val;
break;
case 2:
*(u32 *) (0xBF808254) = val;
break;
case 3:
*(u32 *) (0xBF80825C) = val;
break;
}
}
u32 sio2_getSend2(int entryNum) {
switch(entryNum) {
case 0:
return(*(u32 *) (0xBF808244));
case 1:
return(*(u32 *) (0xBF80824C));
case 2:
return(*(u32 *) (0xBF808254));
case 3:
return(*(u32 *) (0xBF80825C));
}
return(0);
}
u32 sio2_getRecv2(void) {
return(*(u32 *) (0xBF808270));
}
void sio2_setSend3(int entryNum, u32 val) {
if(entryNum < 16)
*(u32 *) (0xBF808200 + (entryNum * 4)) = val;
}
u32 sio2_getSend3(int entryNum) {
if(entryNum < 16)
return(*(u32 *) (0xBF808200 + (entryNum * 4)));
return(-1);
}
u32 sio2_getRecv3(void) {
return(*(u32 *) (0xBF808274));
}
void sio2_set8278(u32 arg0) {
*(u32 *) (0xBF808278) = arg0;
}
u32 sio2_get8278(void) {
return(*(u32 *) (0xBF808278));
}
void sio2_set827C(u32 arg0) {
*(u32 *) (0xBF80827C) = arg0;
}
u32 sio2_get827C(void) {
return(*(u32 *) (0xBF80827C));
}
void sio2_datain(u8 arg0) {
*(u8 *) (0xBF808260) = arg0;
}
u8 sio2_dataout(void) {
return(*(u8 *) (0xBF808264));
}
void sio2_setIntr(u32 arg0) {
*(u32 *) (0xBF808280) = arg0;
}
u32 sio2_getIntr(void) {
return(*(u32 *) (0xBF808280));
}
int sio2_createEventFlag(void) {
iop_event_t param;
param.attr = 2;
param.option = 0;
param.bits = 0;
return(CreateEventFlag(&param));
}
void dumpbuf(u8 *buf, int size) {
/* char str[1024];
char tmp[256];
int i;
str[0] = 0;
for(i = 0; i < size; i++) {
sprintf(tmp, "%x, ", buf[i]);
strcat(str, tmp);
}
printf("%s\n", str);
*/
}
void sio2_sendPacket(struct sio2_packet *p) {
int i;
// _dprintf("%s: sendSize=%d\n", __FUNCTION__, p->sendSize);
for(i = 0; i < 4; i++) {
sio2_setSend1(i, p->sendArray1[i]);
sio2_setSend2(i, p->sendArray2[i]);
}
for(i = 0; i < 16; i++)
sio2_setSend3(i, p->sendArray3[i]);
if (p->sendSize) {
_dprintf("sendBuf: ");
dumpbuf(p->sendBuf, p->sendSize);
for(i = 0; i < p->sendSize; i++) {
*(u8 *) (0xBF808260) = p->sendBuf[i];
}
}
if(p->dmacAddress1 != 0) {
_dprintf("dmaAddress1=%x, dmacSize1=%x, dmacCount1=%x\n", p->dmacAddress1, p->dmacSize1, p->dmacCount1);
dumpbuf((u8*)p->dmacAddress1, p->dmacSize1*p->dmacCount1);
dmacSetDMA(DMAch_SIO2in, p->dmacAddress1, p->dmacSize1, p->dmacCount1, 1); // from memory
dmacStartTransfer(DMAch_SIO2in);
}
if(p->dmacAddress2 != 0) {
dmacSetDMA(DMAch_SIO2out, p->dmacAddress2, p->dmacSize2, p->dmacCount2, 0); // to memory
dmacStartTransfer(DMAch_SIO2out);
}
}
void sio2_recvPacket(struct sio2_packet *p) {
int i;
// _dprintf("%s: recvSize=%d\n", __FUNCTION__, p->recvSize);
p->recvVal1 = *(u32 *) (0xBF80826C);
p->recvVal2 = *(u32 *) (0xBF808270);
p->recvVal3 = *(u32 *) (0xBF808274);
if (p->recvSize) {
_dprintf("recvBuf: ");
for(i = 0; i < p->recvSize; i++) {
p->recvBuf[i] = *(u8 *) (0xBF808264);
printf("%x, ", p->recvBuf[i]);
}
// printf("\n");
}
if (p->dmacAddress2 != 0) {
dumpbuf((u8*)p->dmacAddress2, p->dmacSize2*p->dmacCount2);
}
}
void sio2_basicThread(void* data) {
unsigned long result[4];
//_dprintf("%s\n", __FUNCTION__);
while(1) {
WaitEventFlag(common.evid, 0x5, 0x01, result);
if (result[0] & 0x01) {
ClearEventFlag(common.evid, ~0x1);
SetEventFlag(common.evid, 0x02);
} else
if (result[0] & 0x04) {
ClearEventFlag(common.evid, ~0x4);
SetEventFlag(common.evid, 0x08);
} else {
printf("sio2MAN: Woke up for unknown event(%08X)!\n", result[0]);
return;
}
// Wait for application to call our export 25
WaitEventFlag(common.evid, 0x10, 0, NULL);
ClearEventFlag(common.evid, ~0x10);
*(u32 *) (0xBF808268) = (*(u32 *) (0xBF808268)) | 0x0C;
sio2_sendPacket(packetAddr);
*(u32 *) (0xBF808268) = (*(u32 *) (0xBF808268)) | 0x01;
// Wait for the sio2 interrupt to occur
WaitEventFlag(common.evid, 0x80, 0, NULL);
ClearEventFlag(common.evid, ~0x80);
// Recieve the reply packet
sio2_recvPacket(packetAddr);
SetEventFlag(common.evid, 0x20);
WaitEventFlag(common.evid, 0x40, 0, NULL);
ClearEventFlag(common.evid, ~0x40);
}
}
int sio2_createBasicThread(void) {
iop_thread_t param;
param.attr = TH_C;
param.option = 0;
param.thread = &sio2_basicThread;
param.stacksize = 0x2000;
param.priority = 0x18;
return(CreateThread(&param));
}
int sio2_interruptHandler(struct sio2common *c) {
sio2_setIntr(sio2_getIntr());
iSetEventFlag(c->evid, 0x80);
return(1);
}
// Export 0
int sio2_init(void) {
u32 oldStat;
// _dprintf("%s\n", __FUNCTION__);
if(RegisterLibraryEntries(&sio2man_stub) != 0) {
//printf("sio2MAN: Unable to register library entries!\n");
return(MODULE_NO_RESIDENT_END);//==1
}
if(sio2_initialized != 0) {
//printf("sio2MAN: Already initialized!\n");
return(MODULE_NO_RESIDENT_END);
}
sio2_initialized = 1;
*(u32 *) (0xBF808268) = 0x3BC;
common.evid = sio2_createEventFlag();
common.thid = sio2_createBasicThread();
CpuSuspendIntr(&oldStat);
RegisterIntrHandler(INUM_sio2, HTYPE_C, &sio2_interruptHandler, &common);
EnableIntr(INUM_sio2);
CpuResumeIntr(oldStat);
dmacSetVal(DMAch_SIO2in, 0x03);
dmacSetVal(DMAch_SIO2out, 0x03);
dmacEnableDMAch(DMAch_SIO2in);
dmacEnableDMAch(DMAch_SIO2out);
StartThread(common.thid, 0); // Start the "basicThread"
return MODULE_RESIDENT_END;
}
void sio2_deInit(void) {
u32 oldStat;
// _dprintf("%s\n", __FUNCTION__);
CpuSuspendIntr(&oldStat);
DisableIntr(INUM_sio2, 0);
ReleaseIntrHandler(INUM_sio2);
CpuResumeIntr(oldStat);
dmacDisableDMAch(DMAch_SIO2in);
dmacDisableDMAch(DMAch_SIO2out);
}
void sio2_signalExchange1(void) {
// _dprintf("%s\n", __FUNCTION__);
// Signal the basic thread to let it know we want to do an exchange.
SetEventFlag(common.evid, 0x01);
// Wait for basic thread to acknowledge then clear the flag.
WaitEventFlag(common.evid, 0x02, 0, NULL);
ClearEventFlag(common.evid, ~0x2);
}
void sio2_signalExchange2(void) {
// _dprintf("%s\n", __FUNCTION__);
// Signal the basic thread to let it know we want to do an exchange.
SetEventFlag(common.evid, 0x04);
// Wait for basic thread to acknowledge then clear the flag.
WaitEventFlag(common.evid, 0x08, 0, NULL);
ClearEventFlag(common.evid, ~0x8);
}
int sio2_packetExchange(struct sio2_packet *packet) {
// _dprintf("%s: %x\n", __FUNCTION__, packet);
// Set the address of the packet.
packetAddr = packet;
// Let the basic thread know we have the address set for the exchange.
SetEventFlag(common.evid, 0x10);
// Wait for the basic thread to finish it's stuff.
WaitEventFlag(common.evid, 0x20, 0, NULL);
ClearEventFlag(common.evid, ~0x20);
SetEventFlag(common.evid, 0x40);
return 1;
}