static bool set_gpio_config_addr(unsigned short addr)
{
if (io_Init() == false) {
err_print((char*)"%s: Init IO lib error!!\n", __FUNCTION__);
return false;
}
if ((gpio_config_addr = sb_Read16(0x62) & 0xfffe) == 0x0000)
sb_Write16(0x62, sb_Read16(0x62) | (gpio_config_addr = GPIO_CONFIG_ADDR));
sb_Write16(0x62, sb_Read16(0x62) | 0x0001);
// io_outpdw(GPIO_CONFIG_ADDR + 0x00, io_inpdw(GPIO_CONFIG_ADDR + 0x00) | 0x00000004L);
if (io_Close() == false) err_print((char*)"%s: Close IO lib error!!\n", __FUNCTION__);
return true;
}
bool init() {
int i;
if(io_Init() == false) return false;
//set corssbar Base Address
sb_Write16(0x64,0x0A01);
//printf("SB C0~C3 REG: 0x%08X\n", sb_Read(0xc0));
sb_Write(0xc0, sb_Read(0xc0) | 0x8000C000L);
//printf("SB C0~C3 REG: 0x%08X\n", sb_Read(0xc0));
//set GPIO Base Address
sb_Write16(0x62,0xf101);
// GPIO enable
io_outpdw(0xf100,0x00ff);
//set GPIO P0~9 dircetion & data Address
//io_outpdw(0xf100,0x03ff);
for(i=0;i<8;i++) {
io_outpdw(0xf100 + (i+1)*4,((0xf202 + i*4)<<16) + 0xf200 + i*4);
//io_outpb((sb_Read16(0x64)&0xfffe)+i,0x00);
}
//setADC Base Address
sb_Write(0xbc, sb_Read(0xbc) & (~(1L<<28))); // active adc
sb1_Write16(0xde, sb1_Read16(0xde) | 0x02); // not Available for 8051A Access ADC
sb1_Write(0xe0, 0x0010fe00L); // baseaddr = 0xfe00, disable irq
//CDC
USBDEV = CreateUSBDevice();
if(USBDEV == NULL)
{
printf("init error\n");
return false;
}
usb_SetUSBPins(USBDEV, 7, 0, 7, 1);
if(usb_Init(USBDEV) == false)
{
printf("init2 error\n");
return false;
}
//io_Close();
return true;
}
bool init() {
int i, crossbarBase, gpioBase;
if(io_Init() == false) return false;
timer_NowTime(); // initialize timer
CLOCKS_PER_MICROSEC = vx86_CpuCLK();
VORTEX86EX_CLOCKS_PER_MS = CLOCKS_PER_MICROSEC*1000UL;
// Set IRQ4 as level-trigger
io_outpb(0x4D0, io_inpb(0x4D0) | 0x10);
//set corssbar Base Address
crossbarBase = sb_Read16(SB_CROSSBASE) & 0xfffe;
if(crossbarBase == 0 || crossbarBase == 0xfffe)
sb_Write16(SB_CROSSBASE, CROSSBARBASE | 0x01);
// Force set HIGH speed ISA on SB
sb_Write(SB_FCREG, sb_Read(SB_FCREG) | 0x8000C000L);
//set SB GPIO Base Address
gpioBase = sb_Read16(SB_GPIOBASE) & 0xfffe;
if(gpioBase == 0 || gpioBase == 0xfffe)
{
sb_Write16(SB_GPIOBASE, GPIOCTRLBASE | 0x01);
gpioBase = GPIOCTRLBASE;
}
// Enable GPIO 0 ~ 7
io_outpdw(gpioBase, 0x00ff);
// set GPIO Port 0~7 dircetion & data Address
for(i=0;i<8;i++)
io_outpdw(gpioBase + (i+1)*4,((GPIODIRBASE + i*4)<<16) + GPIODATABASE + i*4);
// set ADC Base Address
sb_Write(0xbc, sb_Read(0xbc) & (~(1L<<28))); // active adc
sb1_Write16(0xde, sb1_Read16(0xde) | 0x02); // not Available for 8051A Access ADC
sb1_Write(0xe0, 0x0050fe00L); // baseaddr = 0xfe00, disable irq
// set MCM Base Address
set_MMIO();
mc_setbaseaddr();
for(i=0; i<4; i++)
mc_SetMode(i, MCMODE_PWM_SIFB);
if(Global_irq_Init == false)
{
// set MCM IRQ
if(irq_Init() == false)
{
printf("MCM IRQ init fail\n"); return false;
}
if(irq_Setting(GetMCIRQ(), IRQ_LEVEL_TRIGGER + IRQ_DISABLE_INTR) == false)
{
printf("MCM IRQ Setting fail\n"); return false;
}
Set_MCIRQ(GetMCIRQ());
Global_irq_Init = true;
}
//CDC
USBDEV = CreateUSBDevice();
if(USBDEV == NULL)
{
printf("init error\n");
return false;
}
usb_SetUSBPins(USBDEV, 7, 0, 7, 1);
usb_SetTimeOut(USBDEV, 0L, 500L); // USB RX timerout is 0ms and TX timeout is 500ms
if(usb_Init(USBDEV) == false)
{
printf("init2 error\n");
return false;
}
//io_Close();
return true;
}