X-Git-Url: http://git.rot13.org/?p=goodfet;a=blobdiff_plain;f=firmware%2Fapps%2Fjtag%2Fjtag430.c;h=081fb52427368ba49aa95e39d7d24850c8bb5dca;hp=03541c1dc1c2a1600c7647b85ecb63d53c7e69de;hb=7487b2cd89324081ccfc195d49f4158f10ec534f;hpb=a653ba1562dc444e4be791e22264a89a3c6b4a19 diff --git a/firmware/apps/jtag/jtag430.c b/firmware/apps/jtag/jtag430.c index 03541c1..081fb52 100644 --- a/firmware/apps/jtag/jtag430.c +++ b/firmware/apps/jtag/jtag430.c @@ -77,12 +77,107 @@ void jtag430_writemem(unsigned int adr, unsigned int data){ jtag_ir_shift8(IR_DATA_TO_ADDR); jtag_dr_shift16(data); SETTCLK; +} + +//! Defined in jtag430asm.S +void jtag430_tclk_flashpulses(int); +/* //! Pulse TCLK at 350kHz +/- 100kHz */ +/* void jtag430_tclk_flashpulses(register i){ */ +/* //TODO check this on a scope. */ +/* register j=0; */ + +/* //At 2MHz, 350kHz is obtained with 5 clocks of delay */ + +/* /\** Pondering: */ +/* What happens if the frequency is too low or to high? */ +/* Is there any risk of damaging the chip, or only of a poor write? */ +/* *\/ */ +/* while(j++!=i){ */ +/* SETTCLK; */ +/* _NOP(); */ +/* _NOP(); */ +/* _NOP(); */ +/* CLRTCLK; */ +/* } */ +/* } */ + +//! Write data to flash memory. Must be preconfigured. +void jtag430_writeflashword(unsigned int adr, unsigned int data){ + /* + CLRTCLK; + jtag_ir_shift8(IR_CNTRL_SIG_16BIT); + jtag_dr_shift16(0x2408);//word write + jtag_ir_shift8(IR_ADDR_16BIT); + jtag_dr_shift16(adr); + jtag_ir_shift8(IR_DATA_TO_ADDR); + jtag_dr_shift16(data); + SETTCLK; + + //Return to read mode. + CLRTCLK; + jtag_ir_shift8(IR_CNTRL_SIG_16BIT); + jtag_dr_shift16(0x2409); + */ + + jtag430_writemem(adr,data); + CLRTCLK; + jtag_ir_shift8(IR_CNTRL_SIG_16BIT); + jtag_dr_shift16(0x2409); + + //Pulse TCLK + jtag430_tclk_flashpulses(35); //35 standard } -//! Write data to address. +//! Configure flash, then write a word. void jtag430_writeflash(unsigned int adr, unsigned int data){ - //TODO; this is complicated. + jtag430_haltcpu(); + + //FCTL1=0xA540, enabling flash write + jtag430_writemem(0x0128, 0xA540); + //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); + + //Write the word itself. + jtag430_writeflashword(adr,data); + + //FCTL1=0xA500, disabling flash write + jtag430_writemem(0x0128, 0xA500); + + jtag430_releasecpu(); +} + + + +#define ERASE_GLOB 0xA50E +#define ERASE_ALLMAIN 0xA50C +#define ERASE_MASS 0xA506 +#define ERASE_MAIN 0xA504 +#define ERASE_SGMT 0xA502 + +//! Configure flash, then write a word. +void jtag430_eraseflash(unsigned int mode, unsigned int adr, unsigned int count){ + //FCTL1= erase mode + jtag430_writemem(0x0128, 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); + + //Write the erase word. + jtag430_writemem(adr, 0x55AA); + //Return to read mode. + CLRTCLK; + jtag_ir_shift8(IR_CNTRL_SIG_16BIT); + jtag_dr_shift16(0x2409); + + //Send the pulses. + jtag430_tclk_flashpulses(count); + + //FCTL1=0xA500, disabling flash write + jtag430_writemem(0x0128, 0xA500); } @@ -192,10 +287,18 @@ void jtag430handle(unsigned char app, case JTAG430_WRITEMEM: case POKE: jtag430_writemem(cmddataword[0],cmddataword[1]); - txdata(app,verb,0); + cmddataword[0]=jtag430_readmem(cmddataword[0]); + txdata(app,verb,2); break; case JTAG430_WRITEFLASH: jtag430_writeflash(cmddataword[0],cmddataword[1]); + cmddataword[0]=jtag430_readmem(cmddataword[0]); + txdata(app,verb,2); + break; + case JTAG430_ERASEFLASH: + jtag430_eraseflash(ERASE_MASS,0xFFFE,0xFFFF); + jtag430_eraseflash(ERASE_MASS,0xFFFE,0xFFFF); + jtag430_eraseflash(ERASE_MASS,0xFFFE,0xFFFF); txdata(app,verb,0); break; case JTAG430_SETPC: @@ -205,5 +308,6 @@ void jtag430handle(unsigned char app, default: jtaghandle(app,verb,len); } + jtag430_resettap(); }