//=========================================================================
// Additional initialisations
//-------------------------------------------------------------------------
__myevic__ void CustomStartup()
{
//-------------------------------------------------------------------------
// EADC test
if ( 0 )
{
uint32_t s1, s2, s3;
SetADCState( 0, 1 );
SetADCState( 4, 1 );
do
{
ClearScreenBuffer();
CLK_SysTickDelay( 10 );
s3 = ADC_Read( 4 );
CLK_SysTickDelay( 10 );
s1 = ADC_Read( 18 );
CLK_SysTickDelay( 10 );
s2 = ADC_Read( 0 );
DrawValue( 8, 0, s1, 0, 0x29, 4 );
DrawValue( 8, 20, s2, 0, 0x29, 4 );
DrawValue( 8, 40, s3, 0, 0x29, 4 );
DisplayRefresh();
WaitOnTMR2( 1000 );
}
while ( PD3 );
}
//-------------------------------------------------------------------------
// Timer test 1
if ( 0 )
{
TIMER_Stop( TIMER3 );
TIMER_Close( TIMER3 );
MemClear( gPlayfield.uc, 256 );
CLK_SetModuleClock( TMR3_MODULE, CLK_CLKSEL1_TMR3SEL_LIRC, 0 );
gPlayfield.ul[1] =
TIMER_Open( TIMER3, TIMER_PERIODIC_MODE, 10 );
TIMER_EnableInt( TIMER3 );
TIMER_Start( TIMER3 );
}
//-------------------------------------------------------------------------
// Timer test 2
if ( 0 )
{
TIMER_Close( TIMER2 );
TIMER_Close( TIMER3 );
MemClear( gPlayfield.uc, 256 );
CLK_SetModuleClock( TMR2_MODULE, CLK_CLKSEL1_TMR2SEL_HXT, 0 );
CLK_SetModuleClock( TMR3_MODULE, CLK_CLKSEL1_TMR3SEL_LIRC, 0 );
CLK_EnableModuleClock( TMR2_MODULE );
CLK_EnableModuleClock( TMR3_MODULE );
__set_PRIMASK(1);
TIMER3->CTL |= TIMER_CTL_RSTCNT_Msk;
TIMER2->CTL |= TIMER_CTL_RSTCNT_Msk;
TIMER3->CMP = 1000;
TIMER3->CTL = TIMER_CTL_CNTEN_Msk | TIMER_ONESHOT_MODE;
TIMER2->CTL = TIMER_CTL_CNTEN_Msk | TIMER_CONTINUOUS_MODE;
while(!(TIMER3->INTSTS & TIMER_INTSTS_TIF_Msk));
TIMER2->CTL = 0;
gPlayfield.ul[0] = TIMER2->CNT;
__set_PRIMASK(0);
TIMER_Close( TIMER2 );
TIMER_Close( TIMER3 );
CLK_SetModuleClock( TMR2_MODULE, CLK_CLKSEL1_TMR2SEL_HIRC, 0 );
CLK_EnableModuleClock( TMR2_MODULE );
TIMER_Open( TIMER2, TIMER_PERIODIC_MODE, 1000 );
TIMER_EnableInt( TIMER2 );
TIMER_Start( TIMER2 );
CLK_SetModuleClock( TMR3_MODULE, CLK_CLKSEL1_TMR3SEL_HXT, 0 );
CLK_EnableModuleClock( TMR3_MODULE );
TIMER_Open( TIMER3, TIMER_PERIODIC_MODE, 10 );
TIMER_EnableInt( TIMER3 );
TIMER_Start( TIMER3 );
}
return;
}
//=========================================================================
//----- (00005D24) --------------------------------------------------------
__myevic__ void DevicesOnOff( int off )
{
if ( off )
{
TIMER_DisableInt( TIMER0 );
TIMER_DisableInt( TIMER1 );
TIMER_DisableInt( TIMER2 );
if ( !gFlags.light_sleep )
{
TIMER_DisableInt( TIMER3 );
}
EADC_Close( EADC );
SetADCState( 1, 0 );
SetADCState( 2, 0 );
SetADCState( 14, 0 );
if ( ISVTCDUAL || ISCUBOID || ISCUBO200 || ISRX200S || ISRX23 || ISRX300 )
{
SetADCState( 3, 0 );
SetADCState( 13, 0 );
if ( ISCUBO200 || ISRX200S || ISRX23 || ISRX300 )
{
SetADCState( 15, 0 );
}
PD7 = 0;
BBC_Configure( BBC_PWMCH_CHARGER, 0 );
PD7 = 0;
if ( ISCUBOID || ISCUBO200 || ISRX200S || ISRX23 )
{
PF2 = 0;
}
}
PC1 = 0;
PC0 = 0;
BBC_Configure( BBC_PWMCH_BUCK, 0 );
if ( !ISVTCDUAL ) PC3 = 0;
PC2 = 0;
BBC_Configure( BBC_PWMCH_BOOST, 0 );
if ( ISCUBO200 || ISRX200S || ISRX23 )
{
PF1 = 0;
}
else if ( ISRX300 )
{
PD1 = 0;
}
else
{
PB7 = 0;
}
GPIO_DisableInt( PD, 0 );
PD0 = 0;
GPIO_SetMode( PD, GPIO_PIN_PIN0_Msk, GPIO_MODE_OUTPUT );
if ( ISRX300 )
{
PF5 = 0;
PF6 = 0;
PA3 = 0;
PA2 = 0;
}
if ( ISVTCDUAL )
{
GPIO_DisableInt( PD, 1 );
PD1 = 0;
GPIO_SetMode( PD, GPIO_PIN_PIN1_Msk, GPIO_MODE_OUTPUT );
}
else if ( !ISCUBOID && !ISCUBO200 && !ISRX200S && !ISRX23 && !ISRX300 )
{
GPIO_DisableInt( PD, 7 );
PD7 = 0;
GPIO_SetMode( PD, GPIO_PIN_PIN7_Msk, GPIO_MODE_OUTPUT );
}
SYS->GPE_MFPH &= ~(SYS_GPE_MFPH_PE11MFP_Msk|SYS_GPE_MFPH_PE12MFP_Msk|SYS_GPE_MFPH_PE13MFP_Msk);
SYS->GPE_MFPH |= (SYS_GPE_MFPH_PE11MFP_GPIO|SYS_GPE_MFPH_PE12MFP_GPIO|SYS_GPE_MFPH_PE13MFP_GPIO);
PE11 = 0;
GPIO_SetMode( PE, GPIO_PIN_PIN11_Msk, GPIO_MODE_OUTPUT );
PE12 = 0;
GPIO_SetMode( PE, GPIO_PIN_PIN12_Msk, GPIO_MODE_OUTPUT );
PE13 = 0;
GPIO_SetMode( PE, GPIO_PIN_PIN13_Msk, GPIO_MODE_OUTPUT );
PE10 = 0;
GPIO_EnableInt( PE, 0, GPIO_INT_BOTH_EDGE );
GPIO_EnableInt( PD, 2, GPIO_INT_BOTH_EDGE );
GPIO_EnableInt( PD, 3, GPIO_INT_BOTH_EDGE );
if ( ISVTCDUAL )
{
PA3 = 0;
PC3 = 0;
PF2 = 0;
PA2 = 0;
}
else if ( ISCUBOID || ISCUBO200 || ISRX200S || ISRX23 || ISRX300 )
{
PF0 = 0;
}
SYS_UnlockReg();
SYS->USBPHY &= ~SYS_USBPHY_LDO33EN_Msk;
SYS->IVSCTL &= ~(SYS_IVSCTL_VBATUGEN_Msk|SYS_IVSCTL_VTEMPEN_Msk);
SYS_DisableBOD();
SYS->VREFCTL = 0;
SYS_LockReg();
USBD_CLR_INT_FLAG( USBD_INTSTS_WAKEUP|USBD_INTSTS_FLDET|USBD_INTSTS_BUS|USBD_INTSTS_USB );
USBD_ENABLE_INT( USBD_INT_WAKEUP );
}
else
{
USBD_CLR_INT_FLAG( USBD_INTSTS_WAKEUP );
SYS_UnlockReg();
SYS->USBPHY |= SYS_USBPHY_LDO33EN_Msk;
SYS->IVSCTL |= SYS_IVSCTL_VBATUGEN_Msk;
if ( ISRX300 )
{
SYS->IVSCTL |= SYS_IVSCTL_VTEMPEN_Msk;
}
SYS->VREFCTL = SYS_VREFCTL_VREF_2_56V;
SYS_EnableBOD( SYS_BODCTL_BOD_RST_EN, SYS_BODCTL_BODVL_2_2V );
SYS_LockReg();
GPIO_DisableInt( PE, 0 );
GPIO_DisableInt( PD, 2 );
GPIO_DisableInt( PD, 3 );
if ( ISCUBOID || ISCUBO200 || ISRX200S || ISRX23 )
{
PF2 = 1;
}
SYS->GPE_MFPH &= ~(SYS_GPE_MFPH_PE11MFP_Msk|SYS_GPE_MFPH_PE12MFP_Msk|SYS_GPE_MFPH_PE13MFP_Msk);
SYS->GPE_MFPH |= (SYS_GPE_MFPH_PE11MFP_SPI0_MOSI0|SYS_GPE_MFPH_PE12MFP_SPI0_SS|SYS_GPE_MFPH_PE13MFP_SPI0_CLK);
GPIO_SetMode( PD, GPIO_PIN_PIN0_Msk, GPIO_MODE_INPUT );
GPIO_EnableInt( PD, 0, GPIO_INT_FALLING );
if ( ISVTCDUAL )
{
GPIO_SetMode( PD, GPIO_PIN_PIN1_Msk, GPIO_MODE_INPUT );
GPIO_EnableInt( PD, 1, GPIO_INT_RISING );
GPIO_ENABLE_DEBOUNCE( PD, GPIO_PIN_PIN1_Msk );
}
else if ( !ISCUBOID && !ISCUBO200 && !ISRX200S && !ISRX23 && !ISRX300 )
{
GPIO_SetMode( PD, GPIO_PIN_PIN7_Msk, GPIO_MODE_INPUT );
GPIO_EnableInt( PD, 7, GPIO_INT_RISING );
GPIO_ENABLE_DEBOUNCE( PD, GPIO_PIN_PIN7_Msk );
}
if ( ISCUBO200 || ISRX200S || ISRX23 )
{
PF1 = 1;
}
else if ( ISRX300 )
{
PD1 = 1;
}
else
{
PB7 = 1;
}
SetADCState( 1, 1 );
SetADCState( 2, 1 );
SetADCState( 14, 1 );
if ( ISVTCDUAL || ISCUBOID || ISCUBO200 || ISRX200S || ISRX23 || ISRX300 )
{
SetADCState( 3, 1 );
SetADCState( 13, 1 );
if ( ISCUBO200 || ISRX200S || ISRX23 || ISRX300 )
{
SetADCState( 15, 1 );
}
}
TIMER_EnableInt( TIMER0 );
TIMER_EnableInt( TIMER1 );
TIMER_EnableInt( TIMER2 );
TIMER_EnableInt( TIMER3 );
}
}
//=========================================================================
//----- (0000344C) --------------------------------------------------------
__myevic__ void StopFire()
{
// register const uint32_t lr __asm__("lr");
// uint32_t caller;
// caller = lr;
if ( ISVTCDUAL )
{
GPIO_SetMode( PD, GPIO_PIN_PIN1_Msk, GPIO_MODE_INPUT );
}
else if ( !ISCUBOID && !ISCUBO200 && !ISRX200S && !ISRX23 && !ISRX300 )
{
GPIO_SetMode( PD, GPIO_PIN_PIN7_Msk, GPIO_MODE_INPUT );
}
PC1 = 0;
if ( !ISVTCDUAL ) PC3 = 0;
BuckDuty = 0;
PC0 = 0;
BBC_Configure( BBC_PWMCH_BUCK, 0 );
BoostDuty = 0;
PC2 = 0;
BBC_Configure( BBC_PWMCH_BOOST, 0 );
SetADCState( 1, 0 );
SetADCState( 2, 0 );
if ( ISCUBO200 || ISRX200S || ISRX23 || ISRX300 )
{
SetADCState( 15, 0 );
}
if ( ISEGRIPII || ISEVICAIO )
{
LEDTimer = 30;
}
if ( gFlags.firing )
{
gFlags.firing = 0;
if ( FireDuration > 5 )
{
dfTimeCount += FireDuration;
if ( dfTimeCount > 999999 ) dfTimeCount = 0;
if ( ++dfPuffCount > 99999 ) dfPuffCount = 0;
UpdatePTTimer = 80;
}
RTCWriteRegister( RTCSPARE_VV_MJOULES, MilliJoules );
if (( FireDuration * 10 >= dfPreheatTime )
|| ( dfStatus.pcurve && FireDuration > 10 ))
{
PreheatDelay = dfPHDelay * 100;
}
}
// myprintf( "StopFire from 0x%08x\n", caller );
AutoPuffTimer = 0;
PreheatTimer = 0;
LowBatVolts = 0;
BatReadTimer = 200;
}
