X-Git-Url: http://git.rot13.org/?p=goodfet;a=blobdiff_plain;f=firmware%2Fgoodfet.c;h=b8d9e3dbe7940936065d98a0c4bb9b4ccbe5c7ff;hp=a61f79b25b4283150704c14efa16e5a2e7a15161;hb=c1ef7ebcf885f8eac4fb047a376393fc7c7de196;hpb=124d382cce21bad10a942c7d9f610a6934c24f63 diff --git a/firmware/goodfet.c b/firmware/goodfet.c index a61f79b..b8d9e3d 100644 --- a/firmware/goodfet.c +++ b/firmware/goodfet.c @@ -15,12 +15,40 @@ //! Initialize registers and all that jazz. void init(){ + #ifdef DAC12IR int i; + #endif + WDTCTL = WDTPW + WDTHOLD; // Stop watchdog timer //LED out and on. PLEDDIR |= PLEDPIN; PLEDOUT &= ~PLEDPIN; + + + /* P5.0 out and low; this is chosen for the PIC app (in which P5.0 + is !MCLR) to ensure that an attached PIC chip, if present, is + immediately driven to reset state. A brief explanation of why this + is important follows. + + At least dsPIC33F and PIC24H --and very likely other 16-bit PIC + families-- draw a large amount of current when running, especially + when using a fast clock: from 60 mA up to approx. 90 mA. If the + PIC target begins to run before the client can request a new ICSP + session, which requires much less current (e.g., less than 2 mA), + then the MSP430 chip on the GoodFET will fail to start and the FTDI + may have trouble communicating with the client. The latter likely + relates to the FTDI on-chip 3V3 regulator being specified up to + only 50 mA. */ + + + //P5REN &= ~BIT0; //DO NOT UNCOMMENT. Breaks GF1x support. + + //This will have to be cut soon. Use pulling resistors instead. + /* + P5DIR |= BIT0; + P5OUT &= ~BIT0; + */ //Setup clocks, unique to each '430. msp430_init_dco(); @@ -61,7 +89,7 @@ void handle(unsigned char app, unsigned char verb, unsigned long len){ //debugstr("GoodFET"); - P1OUT&=~1; + PLEDOUT&=~PLEDPIN; switch(app){ case GLITCH: glitchhandle(app,verb,len); @@ -72,9 +100,19 @@ void handle(unsigned char app, case SPI: spihandle(app,verb,len); break; + case NRF: + nrfhandle(app,verb,len); + break; + case CCSPI: + ccspihandle(app,verb,len); + break; case AVR: avrhandle(app,verb,len); break; + case PIC: + pichandle(app,verb,len); + break; + case I2CAPP: i2chandle(app,verb,len); break; @@ -88,7 +126,9 @@ void handle(unsigned char app, ejtaghandle(app,verb,len); break; case JTAG430: //Also JTAG430X, JTAG430X2 + //Revert this when X2 support returns. jtag430x2handle(app,verb,len); + //jtag430handle(app,verb,len); break; case SMARTCARD: smartcardhandle(app,verb,len); @@ -119,7 +159,7 @@ int main(void) void (*reboot_function)(void) = (void *) 0xFFFE; init(); - + txstring(MONITOR,OK,"http://goodfet.sf.net/"); @@ -127,25 +167,25 @@ int main(void) while(1){ //Magic 3 app=serial_rx(); + + // If the app is the reset byte (0x80) increment and loop + if (app == RESET) { + reset_count++; - // If the app is the reset byte (0x80) increment and loop - if (app == 0x80) { - reset_count++; - - if (reset_count > 4) { - // We could trigger the WDT with either: - // WDTCTL = 0; - // or - // WDTCTL = WDTPW + WDTCNTCL + WDTSSEL + 0x00; - // but instead we'll jump to our reboot function pointer - (*reboot_function)(); - } - - continue; - } else { - reset_count = 0; - } - + if (reset_count > 4) { + // We could trigger the WDT with either: + // WDTCTL = 0; + // or + // WDTCTL = WDTPW + WDTCNTCL + WDTSSEL + 0x00; + // but instead we'll jump to our reboot function pointer + (*reboot_function)(); + } + + continue; + } else { + reset_count = 0; + } + verb=serial_rx(); //len=serial_rx(); len=rxword(); @@ -158,7 +198,7 @@ int main(void) handle(app,verb,len); }else{ //Listen to the blaberring. - for(i-0;i