//This could be more accurate.
//Does it ever need to be?
#define CCSPEED 3
-#define CCDELAY(x) delay(x)
+//#define CCDELAY(x) delay(x)
+#define CCDELAY(x)
#define SETMOSI P5OUT|=MOSI
#define CLRMOSI P5OUT&=~MOSI
void ccsetup(){
P5OUT|=MOSI+SCK+RST;
P5DIR|=MOSI+SCK+RST;
- //P5DIR&=~MISO; //MOSI is MISO
-
//P5REN=0xFF;
-
}
+
+/* 33 cycle critical region
+0000000e <ccdebuginit>:
+ e: f2 d0 0d 00 bis.b #13, &0x0031 ;5 cycles
+ 12: 31 00
+ 14: f2 c2 31 00 bic.b #8, &0x0031 ;4 cycles
+ 18: d2 c3 31 00 bic.b #1, &0x0031 ;4
+ 1c: f2 e2 31 00 xor.b #8, &0x0031 ;4
+ 20: f2 e2 31 00 xor.b #8, &0x0031 ;4
+ 24: f2 e2 31 00 xor.b #8, &0x0031 ;4
+ 28: f2 e2 31 00 xor.b #8, &0x0031 ;4
+ 2c: d2 d3 31 00 bis.b #1, &0x0031 ;4
+ 30: 30 41 ret
+*/
+
+
//! Initialize the debugger
void ccdebuginit(){
- delay(30); //So the beginning is ready for glitching.
+ //Port output BUT NOT DIRECTION is set at start.
+ P5OUT|=MOSI+SCK+RST;
+
+ //delay(30); //So the beginning is ready for glitching.
//Two positive debug clock pulses while !RST is low.
//Take RST low, pulse twice, then high.
P5OUT&=~SCK;
P5OUT&=~RST;
- //pulse twice
- CCDELAY(CCSPEED);
- P5OUT|=SCK; //up
- CCDELAY(CCSPEED);
- P5OUT&=~SCK; //down
- CCDELAY(CCSPEED);
- P5OUT|=SCK; //up
- CCDELAY(CCSPEED);
- P5OUT&=~SCK; //down
+ //Two rising edges.
+ P5OUT^=SCK; //up
+ P5OUT^=SCK; //down
+ P5OUT^=SCK; //up
+ P5OUT^=SCK; //Unnecessary.
+
//Raise !RST.
P5OUT|=RST;
//Might hurt too.
//ccdebuginit();
long i;
+ int blocklen, blockadr;
switch(verb){
//CC_PEEK and CC_POKE will come later.
if(cmddata[0]&0x4)
ccread(1);
txdata(app,verb,1);
-
break;
case WRITE: //Write a command with no reply.
cccmd(len);
txdata(app,verb,0);
break;
case START://enter debugger
- ccsetup();
ccdebuginit();
txdata(app,verb,0);
break;
//Micro commands!
case CC_CHIP_ERASE:
+ case CC_MASS_ERASE_FLASH:
cc_chip_erase();
txdata(app,verb,1);
break;
txdata(app,verb,1);
break;
case CC_READ_XDATA_MEMORY:
- cmddata[0]=cc_peekdatabyte(cmddataword[0]);
- txdata(app,verb,1);
+ //Read the length.
+ blocklen=1;
+ if(len>2)
+ blocklen=cmddataword[1];
+ blockadr=cmddataword[0];
+
+ //Return that many bytes.
+ for(i=0;i<blocklen;i++)
+ cmddata[i]=cc_peekdatabyte(blockadr+i);
+ txdata(app,verb,blocklen);
break;
+
case CC_WRITE_XDATA_MEMORY:
cmddata[0]=cc_pokedatabyte(cmddataword[0], cmddata[2]);
txdata(app,verb,1);
cc_pokedatabyte(i,0xFF);
txdata(app,verb,0);
break;
- case CC_MASS_ERASE_FLASH:
+
case CC_CLOCK_INIT:
case CC_PROGRAM_FLASH:
+ default:
debugstr("This Chipcon command is not yet implemented.");
txdata(app,NOK,0);//TODO implement me.
break;
//Find the flash word size.
switch(cmddata[0]){
case 0x01://CC1110
+ case 0x11://CC1111
case 0x81://CC2510
case 0x91://CC2511
- flash_word_size=0x02;
//debugstr("2 bytes/flash word");
+ flash_word_size=0x02;
break;
default:
- debugstr("Warning: Guessing flash word size.");
+ //debugstr("Warning: Guessing flash word size.");
+ //flash_word_size=0;
+ break;
case 0x85://CC2430
case 0x89://CC2431
//debugstr("4 bytes/flash word");
return;
}
- if(flash_word_size==0){
- debugstr("Flash word size is wrong.");
+ if(flash_word_size!=2 && flash_word_size!=4){
+ debugstr("Flash word size is wrong, aborting write to");
+ debughex(adr);
while(1);
}
flash_word_size);
//debugstr("Wrote flash routine.");
-
-
+
//MOV MEMCTR, (bank * 16) + 1;
cmddata[0]=0x75;
cmddata[1]=0xc7;
while(!(cc_read_status()&CC_STATUS_CPUHALTED)){
- P1OUT^=1;//blink LED while flashing
+ PLEDOUT^=PLEDPIN;//blink LED while flashing
}
//debugstr("Done flashing.");
- P1OUT&=~1;//clear LED
+ PLEDOUT&=~PLEDPIN;//clear LED
}
//! Read the PC