unsigned int jtag430mode=MSP430X2MODE;
-//! Set the program counter.
-void jtag430_setpc(unsigned int adr){
+//! Set a register.
+void jtag430_setr(u8 reg, u16 val){
jtag_ir_shift8(IR_CNTRL_SIG_16BIT);
jtag_dr_shift16(0x3401);// release low byte
jtag_ir_shift8(IR_DATA_16BIT);
- jtag_dr_shift16(0x4030);//Instruction to load PC
+
+ //0x4030 is "MOV #foo, r0"
+ //Right-most field is register, so 0x4035 loads r5
+ jtag_dr_shift16(0x4030+reg);
CLRTCLK;
SETTCLK;
- jtag_dr_shift16(adr);// Value for PC
+ jtag_dr_shift16(val);// Value for the register
CLRTCLK;
jtag_ir_shift8(IR_ADDR_CAPTURE);
SETTCLK;
- CLRTCLK ;// Now PC is set to "PC_Value"
+ CLRTCLK ;// Now reg is set to new value.
jtag_ir_shift8(IR_CNTRL_SIG_16BIT);
jtag_dr_shift16(0x2401);// low byte controlled by JTAG
}
+//! Set the program counter.
+void jtag430_setpc(unsigned int adr){
+ jtag430_setr(0,adr);
+}
+
//! Halt the CPU
void jtag430_haltcpu(){
//jtag430_setinstrfetch();
else
jtag_dr_shift16(0x2419);//byte read
jtag_ir_shift8(IR_ADDR_16BIT);
- jtag_dr_shift16(adr);//address
+ jtag_dr_shiftadr(adr);//address
jtag_ir_shift8(IR_DATA_TO_ADDR);
SETTCLK;
else
jtag_dr_shift16(0x2418);//byte write
jtag_ir_shift8(IR_ADDR_16BIT);
- jtag_dr_shift16(adr);
+ jtag_dr_shiftadr(adr);
jtag_ir_shift8(IR_DATA_TO_ADDR);
jtag_dr_shift16(data);
SETTCLK;
jtag_ir_shift8(IR_CNTRL_SIG_16BIT);
jtag_dr_shift16(0x2408);//word write
jtag_ir_shift8(IR_ADDR_16BIT);
- jtag_dr_shift16(adr);
+ jtag_dr_shiftadr(adr);
jtag_ir_shift8(IR_DATA_TO_ADDR);
jtag_dr_shift16(data);
SETTCLK;
#define ERASE_SGMT 0xA502
//! Configure flash, then write a word.
-void jtag430_eraseflash(unsigned int mode, unsigned int adr, unsigned int count){
+void jtag430_eraseflash(unsigned int mode, unsigned int adr, unsigned int count,
+ unsigned int info){
jtag430_haltcpu();
//FCTL1= erase mode
//FCTL2=0xA540, selecting MCLK as source, DIV=1
jtag430_writemem(0x012A, 0xA540);
//FCTL3=0xA500, should be 0xA540 for Info Seg A on 2xx chips.
- jtag430_writemem(0x012C, 0xA500);
+ if(info)
+ jtag430_writemem(0x012C, 0xA540);
+ else
+ jtag430_writemem(0x012C, 0xA500);
//Write the erase word.
jtag430_writemem(adr, 0x55AA);
SETTDI; //430X2
SETTMS;
//SETTDI; //classic
- SETTCK;
+ TCKTOCK;
// Navigate to reset state.
// Should be at least six.
for(i=0;i<4;i++){
- CLRTCK;
- SETTCK;
+ TCKTOCK;
}
// test-logic-reset
- CLRTCK;
CLRTMS;
- SETTCK;
+ TCKTOCK;
SETTMS;
// idle
SETRST;
delay(0xFFFF);
+
#ifndef SBWREWRITE
//Entry sequence from Page 67 of SLAU265A for 4-wire MSP430 JTAG
CLRRST;
jtag430_haltcpu();
}
-//! Start normally, not JTAG.
+//! Stop JTAG.
void jtag430_stop(){
debugstr("Exiting JTAG.");
jtagsetup();
P1OUT^=1;
}
P1OUT&=~1;
-
+
+
switch(verb){
case START:
//Enter JTAG mode.
txdata(app,verb,2);
break;
case JTAG430_ERASEFLASH:
- jtag430_eraseflash(ERASE_MASS,0xFFFE,0x3000);
+ jtag430_eraseflash(ERASE_MASS,0xFFFE,0x3000,0);
+ txdata(app,verb,0);
+ break;
+ case JTAG430_ERASEINFO:
+ jtag430_eraseflash(ERASE_MASS,0xFFFE,0x3000,1);
txdata(app,verb,0);
break;
case JTAG430_SETPC:
jtag430_setpc(cmddataword[0]);
txdata(app,verb,0);
break;
-
+ case JTAG430_SETREG:
+ jtag430_setr(cmddata[0],cmddataword[1]);
+ txdata(app,verb,0);
+ break;
+ case JTAG430_GETREG:
+ //jtag430_getr(cmddata[0]);
+ debugstr("JTAG430_GETREG not yet implemented.");
+ cmddataword[0]=0xDEAD;
+ txdata(app,verb,2);
+ break;
case JTAG430_COREIP_ID:
case JTAG430_DEVICE_ID:
cmddataword[0]=0;