pcsx2/plugins/dev9ghzdrk/DEV9.cpp

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#define WINVER 0x0600
#define _WIN32_WINNT 0x0600
#include <winsock2.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <Winioctl.h>
#include <fcntl.h>
#include <windows.h>
#include <stdarg.h>
#define EXTERN
#include "DEV9.h"
#undef EXTERN
#include "Config.h"
#include "smap.h"
#include "ata.h"
#ifdef __WIN32__
#pragma warning(disable:4244)
HINSTANCE hInst=NULL;
#endif
//#define HDD_48BIT
u8 eeprom[] = {
//0x6D, 0x76, 0x63, 0x61, 0x31, 0x30, 0x08, 0x01,
0x76, 0x6D, 0x61, 0x63, 0x30, 0x31, 0x07, 0x02,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x10, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x10, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x10, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
};
int Log = 1;
u32 *iopPC;
const unsigned char version = PS2E_DEV9_VERSION;
const unsigned char revision = 0;
const unsigned char build = 3; // increase that with each version
static char *libraryName = "GiGaHeRz's DEV9 Driver"
#ifdef _DEBUG
"(debug)"
#endif
;
HANDLE hEeprom;
HANDLE mapping;
u32 CALLBACK PS2EgetLibType() {
return PS2E_LT_DEV9;
}
char* CALLBACK PS2EgetLibName() {
return libraryName;
}
u32 CALLBACK PS2EgetLibVersion2(u32 type) {
return (version<<16) | (revision<<8) | build;
}
void __Log(char *fmt, ...) {
va_list list;
static int ticks=-1;
int nticks=GetTickCount();
if(ticks==-1) ticks=nticks;
// if (!Log) return;
if(iopPC!=NULL)
{
fprintf(dev9Log,"[%10d + %4d, IOP PC = %08x] ",nticks,nticks-ticks,*iopPC);
}
else
{
fprintf(dev9Log,"[%10d + %4d] ",nticks,nticks-ticks);
}
ticks=nticks;
va_start(list, fmt);
vfprintf(dev9Log, fmt, list);
va_end(list);
}
s32 CALLBACK DEV9init()
{
#ifdef DEV9_LOG_ENABLE
dev9Log = fopen("logs/dev9Log.txt", "w");
setvbuf(dev9Log, NULL, _IONBF, 0);
DEV9_LOG("DEV9init\n");
#endif
memset(&dev9, 0, sizeof(dev9));
DEV9_LOG("DEV9init2\n");
DEV9_LOG("DEV9init3\n");
FLASHinit();
hEeprom = CreateFile(
"eeprom.dat",
GENERIC_READ|GENERIC_WRITE,
0,
NULL,
OPEN_EXISTING,
FILE_FLAG_WRITE_THROUGH,
NULL
);
if(hEeprom==INVALID_HANDLE_VALUE)
{
dev9.eeprom=(u16*)eeprom;
}
else
{
mapping=CreateFileMapping(hEeprom,NULL,PAGE_READWRITE,0,0,NULL);
if(mapping==INVALID_HANDLE_VALUE)
{
CloseHandle(hEeprom);
dev9.eeprom=(u16*)eeprom;
}
else
{
dev9.eeprom = (u16*)MapViewOfFile(mapping,FILE_MAP_WRITE,0,0,0);
if(dev9.eeprom==NULL)
{
CloseHandle(mapping);
CloseHandle(hEeprom);
dev9.eeprom=(u16*)eeprom;
}
}
}
{
int rxbi;
for(rxbi=0;rxbi<(SMAP_BD_SIZE/8);rxbi++)
{
smap_bd_t *pbd = (smap_bd_t *)&dev9.dev9R[SMAP_BD_RX_BASE & 0xffff];
pbd = &pbd[rxbi];
pbd->ctrl_stat = SMAP_BD_RX_EMPTY;
pbd->length = 0;
}
}
DEV9_LOG("DEV9init ok\n");
return 0;
}
void CALLBACK DEV9shutdown() {
DEV9_LOG("DEV9shutdown\n");
#ifdef DEV9_LOG_ENABLE
fclose(dev9Log);
#endif
}
s32 CALLBACK DEV9open(void *pDsp)
{
DEV9_LOG("DEV9open\n");
LoadConf();
DEV9_LOG("open r+: %s\n", config.Hdd);
config.HddSize = 8*1024;
iopPC = (u32*)pDsp;
#ifdef ENABLE_ATA
ata_init();
#endif
return _DEV9open();
}
void CALLBACK DEV9close()
{
DEV9_LOG("DEV9close\n");
#ifdef ENABLE_ATA
ata_term();
#endif
_DEV9close();
}
int CALLBACK _DEV9irqHandler(void)
{
//dev9Ru16(SPD_R_INTR_STAT)|= dev9.irqcause;
DEV9_LOG("_DEV9irqHandler %x, %x\n", dev9.irqcause, dev9Ru16(SPD_R_INTR_MASK));
if (dev9.irqcause & dev9Ru16(SPD_R_INTR_MASK))
return 1;
return 0;
}
DEV9handler CALLBACK DEV9irqHandler(void) {
return (DEV9handler)_DEV9irqHandler;
}
void _DEV9irq(int cause, int cycles)
{
DEV9_LOG("_DEV9irq %x, %x\n", cause, dev9Ru16(SPD_R_INTR_MASK));
dev9.irqcause|= cause;
if(cycles<1)
DEV9irq(1);
else
DEV9irq(cycles);
}
u8 CALLBACK DEV9read8(u32 addr) {
u8 hard;
if (addr>=ATA_DEV9_HDD_BASE && addr<ATA_DEV9_HDD_END)
{
#ifdef ENABLE_ATA
return ata_read<1>(addr);
#else
return 0;
#endif
}
if (addr>=SMAP_REGBASE && addr<FLASH_REGBASE)
{
//smap
return smap_read8(addr);
}
switch (addr)
{
case SPD_R_PIO_DATA:
/*if(dev9.eeprom_dir!=1)
{
hard=0;
break;
}*/
if(dev9.eeprom_state==EEPROM_TDATA)
{
if(dev9.eeprom_command==2) //read
{
if(dev9.eeprom_bit==0xFF)
hard=0;
else
hard=((dev9.eeprom[dev9.eeprom_address]<<dev9.eeprom_bit)&0x8000)>>11;
dev9.eeprom_bit++;
if(dev9.eeprom_bit==16)
{
dev9.eeprom_address++;
dev9.eeprom_bit=0;
}
}
else hard=0;
}
else hard=0;
return hard;
case DEV9_R_REV:
hard = 0x32; // expansion bay
break;
default:
if ((addr >= FLASH_REGBASE) && (addr < (FLASH_REGBASE + FLASH_REGSIZE))) {
return (u8)FLASHread32(addr, 1);
}
hard = dev9Ru8(addr);
DEV9_LOG("*Unknown 8bit read at address %lx value %x\n", addr, hard);
return hard;
}
DEV9_LOG("*Known 8bit read at address %lx value %x\n", addr, hard);
return hard;
}
u16 CALLBACK DEV9read16(u32 addr)
{
u16 hard;
if (addr>=ATA_DEV9_HDD_BASE && addr<ATA_DEV9_HDD_END)
{
#ifdef ENABLE_ATA
return ata_read<2>(addr);
#else
return 0;
#endif
}
if (addr>=SMAP_REGBASE && addr<FLASH_REGBASE)
{
//smap
return smap_read16(addr);
}
switch (addr)
{
case SPD_R_INTR_STAT:
return dev9.irqcause;
case DEV9_R_REV:
hard = 0x0030; // expansion bay
break;
case SPD_R_REV_1:
hard = 0x0011;
DEV9_LOG("STD_R_REV_1 16bit read %x\n", hard);
return hard;
case SPD_R_REV_3:
// bit 0: smap
// bit 1: hdd
// bit 5: flash
hard = 0;
/*if (config.hddEnable) {
hard|= 0x2;
}*/
if (config.ethEnable) {
hard|= 0x1;
}
hard|= 0x20;//flash
break;
case SPD_R_0e:
hard = 0x0002;
break;
default:
if ((addr >= FLASH_REGBASE) && (addr < (FLASH_REGBASE + FLASH_REGSIZE))) {
return (u16)FLASHread32(addr, 2);
}
hard = dev9Ru16(addr);
DEV9_LOG("*Unknown 16bit read at address %lx value %x\n", addr, hard);
return hard;
}
DEV9_LOG("*Known 16bit read at address %lx value %x\n", addr, hard);
return hard;
}
u32 CALLBACK DEV9read32(u32 addr)
{
u32 hard;
if (addr>=ATA_DEV9_HDD_BASE && addr<ATA_DEV9_HDD_END)
{
#ifdef ENABLE_ATA
return ata_read<4>(addr);
#else
return 0;
#endif
}
if (addr>=SMAP_REGBASE && addr<FLASH_REGBASE)
{
//smap
return smap_read32(addr);
}
switch (addr) {
default:
if ((addr >= FLASH_REGBASE) && (addr < (FLASH_REGBASE + FLASH_REGSIZE))) {
return (u32)FLASHread32(addr, 4);
}
hard = dev9Ru32(addr);
DEV9_LOG("*Unknown 32bit read at address %lx value %x\n", addr, hard);
return hard;
}
DEV9_LOG("*Known 32bit read at address %lx: %lx\n", addr, hard);
return hard;
}
void CALLBACK DEV9write8(u32 addr, u8 value)
{
if (addr>=ATA_DEV9_HDD_BASE && addr<ATA_DEV9_HDD_END)
{
#ifdef ENABLE_ATA
ata_write<1>(addr,value);
#endif
return;
}
if (addr>=SMAP_REGBASE && addr<FLASH_REGBASE)
{
//smap
smap_write8(addr,value);
return;
}
switch (addr) {
case 0x10000020:
dev9.irqcause = 0xff;
break;
case SPD_R_INTR_STAT:
emu_printf("SPD_R_INTR_STAT , WTFH ?\n");
dev9.irqcause=value;
return;
case SPD_R_INTR_MASK:
emu_printf("SPD_R_INTR_MASK8 , WTFH ?\n");
break;
case SPD_R_PIO_DIR:
//DEV9_LOG("SPD_R_PIO_DIR 8bit write %x\n", value);
if((value&0xc0)!=0xc0)
return;
if((value&0x30)==0x20)
{
dev9.eeprom_state=0;
}
dev9.eeprom_dir=(value>>4)&3;
return;
case SPD_R_PIO_DATA:
//DEV9_LOG("SPD_R_PIO_DATA 8bit write %x\n", value);
if((value&0xc0)!=0xc0)
return;
switch(dev9.eeprom_state)
{
case EEPROM_READY:
dev9.eeprom_command=0;
dev9.eeprom_state++;
break;
case EEPROM_OPCD0:
dev9.eeprom_command = (value>>4)&2;
dev9.eeprom_state++;
dev9.eeprom_bit=0xFF;
break;
case EEPROM_OPCD1:
dev9.eeprom_command |= (value>>5)&1;
dev9.eeprom_state++;
break;
case EEPROM_ADDR0:
case EEPROM_ADDR1:
case EEPROM_ADDR2:
case EEPROM_ADDR3:
case EEPROM_ADDR4:
case EEPROM_ADDR5:
dev9.eeprom_address =
(dev9.eeprom_address&(63^(1<<(dev9.eeprom_state-EEPROM_ADDR0))))|
((value>>(dev9.eeprom_state-EEPROM_ADDR0))&(0x20>>(dev9.eeprom_state-EEPROM_ADDR0)));
dev9.eeprom_state++;
break;
case EEPROM_TDATA:
{
if(dev9.eeprom_command==1) //write
{
dev9.eeprom[dev9.eeprom_address] =
(dev9.eeprom[dev9.eeprom_address]&(63^(1<<dev9.eeprom_bit)))|
((value>>dev9.eeprom_bit)&(0x8000>>dev9.eeprom_bit));
dev9.eeprom_bit++;
if(dev9.eeprom_bit==16)
{
dev9.eeprom_address++;
dev9.eeprom_bit=0;
}
}
}
break;
}
return;
default:
if ((addr >= FLASH_REGBASE) && (addr < (FLASH_REGBASE + FLASH_REGSIZE))) {
FLASHwrite32(addr, (u32)value, 1);
return;
}
dev9Ru8(addr) = value;
DEV9_LOG("*Unknown 8bit write at address %lx value %x\n", addr, value);
return;
}
dev9Ru8(addr) = value;
DEV9_LOG("*Known 8bit write at address %lx value %x\n", addr, value);
}
void CALLBACK DEV9write16(u32 addr, u16 value)
{
if (addr>=ATA_DEV9_HDD_BASE && addr<ATA_DEV9_HDD_END)
{
#ifdef ENABLE_ATA
ata_write<2>(addr,value);
#endif
return;
}
if (addr>=SMAP_REGBASE && addr<FLASH_REGBASE)
{
//smap
smap_write16(addr,value);
return;
}
switch (addr)
{
case SPD_R_INTR_MASK:
if ((dev9Ru16(SPD_R_INTR_MASK)!=value) && ((dev9Ru16(SPD_R_INTR_MASK)|value) & dev9.irqcause))
{
DEV9_LOG("SPD_R_INTR_MASK16=0x%X , checking for masked/unmasked interrupts\n",value);
DEV9irq(1);
}
break;
default:
if ((addr >= FLASH_REGBASE) && (addr < (FLASH_REGBASE + FLASH_REGSIZE))) {
FLASHwrite32(addr, (u32)value, 2);
return;
}
dev9Ru16(addr) = value;
DEV9_LOG("*Unknown 16bit write at address %lx value %x\n", addr, value);
return;
}
dev9Ru16(addr) = value;
DEV9_LOG("*Known 16bit write at address %lx value %x\n", addr, value);
}
void CALLBACK DEV9write32(u32 addr, u32 value)
{
if (addr>=ATA_DEV9_HDD_BASE && addr<ATA_DEV9_HDD_END)
{
#ifdef ENABLE_ATA
ata_write<4>(addr,value);
#endif
return;
}
if (addr>=SMAP_REGBASE && addr<FLASH_REGBASE)
{
//smap
smap_write32(addr,value);
return;
}
switch (addr)
{
case SPD_R_INTR_MASK:
emu_printf("SPD_R_INTR_MASK , WTFH ?\n");
break;
default:
if ((addr >= FLASH_REGBASE) && (addr < (FLASH_REGBASE + FLASH_REGSIZE))) {
FLASHwrite32(addr, (u32)value, 4);
return;
}
dev9Ru32(addr) = value;
DEV9_LOG("*Unknown 32bit write at address %lx write %x\n", addr, value);
return;
}
dev9Ru32(addr) = value;
DEV9_LOG("*Known 32bit write at address %lx value %lx\n", addr, value);
}
void CALLBACK DEV9readDMA8Mem(u32 *pMem, int size)
{
DEV9_LOG("*DEV9readDMA8Mem: size %x\n", size);
emu_printf("rDMA\n");
smap_readDMA8Mem(pMem,size);
#ifdef ENABLE_ATA
ata_readDMA8Mem(pMem,size);
#endif
}
void CALLBACK DEV9writeDMA8Mem(u32* pMem, int size)
{
DEV9_LOG("*DEV9writeDMA8Mem: size %x\n", size);
emu_printf("wDMA\n");
smap_writeDMA8Mem(pMem,size);
#ifdef ENABLE_ATA
ata_writeDMA8Mem(pMem,size);
#endif
}
//plugin interface
void CALLBACK DEV9irqCallback(void (*callback)(int cycles)) {
DEV9irq = callback;
}
// extended funcs
s32 CALLBACK DEV9test() {
return 0;
}
void CALLBACK DEV9setSettingsDir(const char* dir)
{
// Grab the ini directory.
// TODO: Use
// s_strIniPath = (dir == NULL) ? "inis" : dir;
}
int emu_printf(const char *fmt, ...)
{
va_list vl;
int ret;
va_start(vl,fmt);
ret = vfprintf(stderr,fmt,vl);
va_end(vl);
fflush(stderr);
return ret;
}