X-Git-Url: http://git.rot13.org/?p=goodfet;a=blobdiff_plain;f=firmware%2Fapps%2Favr%2Favr.c;h=0cc4c0da79842727fd70833ad4dba75b8321400d;hp=c659034b1fa5173c913145e91faed18453b1b796;hb=3e4992b4d109f361b42abdda403471860edfeabf;hpb=c84fe49161b904593101f7fa21aee65d54e03987;ds=sidebyside diff --git a/firmware/apps/avr/avr.c b/firmware/apps/avr/avr.c index c659034..0cc4c0d 100644 --- a/firmware/apps/avr/avr.c +++ b/firmware/apps/avr/avr.c @@ -11,6 +11,7 @@ #include #include "avr.h" +//#include "glitch.h" //! Setup the AVR pins. void avrsetup(){ @@ -20,25 +21,29 @@ void avrsetup(){ //! Initialized an attached AVR. void avrconnect(){ //set I/O pins - avrsetup(); + avrsetup(); //Cut this? + + SETSS; + //delay(50); //Pulse !RST (SS) at least twice while CLK is low. CLRCLK; CLRSS; + //delay(5); SETSS; CLRCLK; - delay(500); + //delay(5); CLRSS; - delay(500); + //delay(5); //Enable programming avr_prgen(); } //! Read and write an SPI byte with delays. -unsigned char avrtrans8(unsigned char byte){ - register unsigned int bit; +u8 avrtrans8(u8 byte){ + register u16 bit; //This function came from the SPI Wikipedia article. //Minor alterations. @@ -67,7 +72,7 @@ u8 avrexchange(u8 a, u8 b, u8 c, u8 d){ avrtrans8(a); avrtrans8(b); if(avrtrans8(c)!=b){ - debugstr("AVR sync error, b not returned as c."); + //debugstr("AVR sync error, b not returned as c."); //Reconnect here? } return avrtrans8(d); @@ -101,6 +106,11 @@ void avr_erase(){ u8 avr_lockbits(){ return avrexchange(0x58, 0, 0, 0); } +//! Write lock bits. +void avr_setlock(u8 bits){ + avrexchange(0xAC,0xE0,0x00, + bits); +} //! Read a byte of EEPROM. u8 avr_peekeeprom(u16 adr){ @@ -111,15 +121,37 @@ u8 avr_pokeeeprom(u16 adr, u8 val){ return avrexchange(0xC0, adr>>8, adr&0xFF, val); } +//! Read a byte of Flash +u8 avr_peekflash(u16 adr){ + u16 a=adr>>1; + if(adr&1) //high byte + return avrexchange(0x28,a>>8,a&0xff,0); + else //low byte + return avrexchange(0x20,a>>8,a&0xff,0); +} + +void avr_bulk_load(u16 start, u16 len, u8 *data) { + u16 adr; + for (adr = 0; adr < len; adr++) { + u16 a = adr + start; + avrexchange((adr & 1) ? 0x48 : 0x40, + a >> 9, + (a >> 1) & 0xff, + data[adr]); + } +} + //! Handles an AVR command. void avrhandle(unsigned char app, unsigned char verb, unsigned long len){ unsigned long i; - static u8 connected=0; + unsigned int at; + /* if(!avr_isready() && connected) debugstr("AVR is not yet ready."); + */ switch(verb){ case READ: @@ -132,9 +164,13 @@ void avrhandle(unsigned char app, avrsetup(); txdata(app,verb,0); break; - case START://returns device code + case START: avrconnect(); - //no break here + txdata(app,verb,0); + break;//Used to fall through here. + case STOP: + SETSS; + txdata(app, verb, 0); case AVR_PEEKSIG: for(i=0;i<4;i++) cmddata[i]=avr_sig(i); @@ -148,7 +184,10 @@ void avrhandle(unsigned char app, cmddata[0]=avr_lockbits(); txdata(app,verb,1); break; - + case AVR_POKELOCK: + avr_setlock(cmddata[0]); + txdata(app,verb,0); + break; case AVR_POKEEEPROM: avr_pokeeeprom(cmddataword[0], cmddata[2]); //no break here. @@ -156,7 +195,33 @@ void avrhandle(unsigned char app, cmddata[0]=avr_peekeeprom(cmddataword[0]); txdata(app,verb,1); break; + case AVR_BULKLOAD: + if (len < 3) { + debugstr("Length too short"); + txdata(app, NOK, 0); + } else { + at = cmddataword[0]; + avr_bulk_load(at, len - 2, cmddata + 2); + txdata(app, verb, 0); + } + break; case PEEK: + //cmddata[0]=avr_peekflash(cmddataword[0]); + //txdata(app,verb,1); + at=cmddataword[0]; + + //Fetch large blocks for bulk fetches, + //small blocks for individual peeks. + if(len>2){ + len=(cmddataword[1]);//always even. + }else{ + len=1; + } + txhead(app,verb,len); + for(i=0;i