self.serialport.write(chr(app));
self.serialport.write(chr(verb));
+ #if data!=None:
+ # count=len(data); #Initial count ignored.
#print "TX %02x %02x" % (app,verb);
#print "Converting %02x at %i" % (data[i],i)
data[i]=chr(data[i]);
outstr=''.join(data);
+ #outstr=data;
self.serialport.write(outstr);
if not self.besilent:
self.readcmd();
0x9005: "tiny12",
0x9006: "tiny15",
0x9007: "tiny13",
+ 0x9108: "tiny25",
0x930B: "tiny85",
0x9001: "S1200",
0x9103: "S2343",
0x9201: "S4414",
- 0x9203: "S4433",
+ 0x9203: "S4433",
0x9202: "S4434",
0x9301: "S8515",
0x9303: "S8535",
0x9305: "mega83",
+ 0x930a: "mega88",
0x9701: "mega103",
0x9401: "mega161",
0x9402: "mega163",
+ 0x9406: "mega168",
+
+ 0x950f: "mega328",
+ 0x950d: "mega325",
+ 0x9508: "mega32"
};
def setup(self):
[ (adr&0xFF), (adr>>8)]
);#little-endian address
return ord(self.data[0]);
+ def flashpeek(self, adr):
+ """Read a byte of the target's EEPROM."""
+ self.writecmd(self.AVRAPP,0x02 ,2,
+ [ (adr&0xFF), (adr>>8)]
+ );#little-endian address
+ return ord(self.data[0]);
+ def flashpeekblock(self, adr):
+ """Read a byte of the target's EEPROM."""
+ self.writecmd(self.AVRAPP,0x02 ,4,
+ [ (adr&0xFF), (adr>>8) &0xFF, 0x80, 0x00]
+ );
+ return self.data;
+
def eeprompoke(self, adr, val):
"""Write a byte of the target's EEPROM."""
self.writecmd(self.AVRAPP,0x91 ,3,
print "%s erase" % sys.argv[0];
#print "%s flash $foo.hex [0x$start 0x$stop]" % sys.argv[0];
#print "%s verify $foo.hex [0x$start 0x$stop]" % sys.argv[0];
+ print "%s peekeeprom 0x$start [0x$stop]" % sys.argv[0];
sys.exit();
#Initialize FET and set baud rate
#Connect to target
client.start();
-#print "setup"
if(sys.argv[1]=="info"):
print "Identifies as %s" % client.identstr();
if(sys.argv[1]=="lockbits"):
print "Lockbits are 0x%02x" % client.lockbits();
+if(sys.argv[1]=="dump"):
+ f = sys.argv[2];
+ start=0x0000;
+ stop=0xFFFF;
+ if(len(sys.argv)>3):
+ start=int(sys.argv[3],16);
+ if(len(sys.argv)>4):
+ stop=int(sys.argv[4],16);
+
+ print "Dumping from %04x to %04x as %s." % (start,stop,f);
+ #h = IntelHex16bit(None);
+ h = IntelHex(None);
+ i=start;
+ while i<=stop:
+ data=client.flashpeekblock(i);
+ print "Dumped %06x."%i;
+ for j in data:
+ if i<=stop: h[i]=ord(j);
+ i+=1;
+ h.write_hex_file(f);
+
+
if(sys.argv[1]=="peekeeprom"):
start=0x0000;
if(len(sys.argv)>2):
while start<=stop:
print "%06x: %02x" % (start,client.eeprompeek(start));
start=start+1;
+if(sys.argv[1]=="peekflash"):
+ start=0x0000;
+ if(len(sys.argv)>2):
+ start=int(sys.argv[2],16);
+ stop=start;
+ if(len(sys.argv)>3):
+ stop=int(sys.argv[3],16);
+ print "Peeking from %06x to %06x." % (start,stop);
+ while start<=stop:
+ print "%06x: %02x" % (start,client.flashpeek(start));
+ start=start+1;
if(sys.argv[1]=="pokeeeprom"):
start=0x0000;
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);
+}
//! Handles an AVR command.
unsigned char verb,
unsigned long len){
unsigned long i;
+ unsigned int at;
static u8 connected=0;
if(!avr_isready() && connected)
txdata(app,verb,1);
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<len;i++){
+ serial_tx(avr_peekflash(at++));
+ }
+ break;
case POKE:
default:
debugstr("Verb unimplemented in AVR application.");
len=(cmddataword[2]);//always even.
else
len=2;
- len&=~1;//clue lsbit
+ len&=~1;//clear lsbit
txhead(app,verb,len);
for(i=0;i<len;i+=2){
void avr_erase();
//! Read lock bits.
u8 avr_lockbits();
-
+//! Read a byte of Flash
+u8 avr_peekflash(u16 adr);
//! Read a byte of EEPROM.
u8 avr_peekeeprom(u16 adr);