X-Git-Url: http://git.rot13.org/?p=goodfet;a=blobdiff_plain;f=firmware%2Fapps%2Favr%2Favr.c;h=c9d0b94d6737bda36abe2f75061dfec129145fca;hp=c86711dec017f558c53a9fa0366af1b2f6e59707;hb=c63fa4693820603a0444cc323ca34ad0b8fa9791;hpb=4d264916c0263052ba7316d7127de6b4cfe8145c

diff --git a/firmware/apps/avr/avr.c b/firmware/apps/avr/avr.c
index c86711d..c9d0b94 100644
--- a/firmware/apps/avr/avr.c
+++ b/firmware/apps/avr/avr.c
@@ -11,16 +11,19 @@
 #include <iomacros.h>
 
 #include "avr.h"
+#include "glitch.h"
 
 //! Setup the AVR pins.
 void avrsetup(){
   spisetup();
+  
+  glitchsetup();
 }
 
 //! Initialized an attached AVR.
 void avrconnect(){
-  register int i;
-  avrsetup();//set I/O pins
+  //set I/O pins
+  avrsetup();
   
   //Pulse !RST (SS) at least twice while CLK is low.
   CLRCLK;
@@ -36,7 +39,7 @@ void avrconnect(){
   avr_prgen();
 }
 
-//! Read and write an SPI byte.
+//! Read and write an SPI byte with delays.
 unsigned char avrtrans8(unsigned char byte){
   register unsigned int bit;
   //This function came from the SPI Wikipedia article.
@@ -67,9 +70,8 @@ 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.");
-  }else{
-    debugstr("Synced properly.");
+    //debugstr("AVR sync error, b not returned as c.");
+    //Reconnect here?
   }
   return avrtrans8(d);
 }
@@ -79,27 +81,65 @@ void avr_prgen(){
   avrexchange(0xAC, 0x53, 0, 0);
 }
 
+//! Is the AVR ready or busy?
+u8 avr_isready(){
+  return avrexchange(0xF0, 0, 0, 0);
+}
+
 //! Read AVR device code.
-u8 avr_devicecode(){
+u8 avr_sig(u8 i){
   return avrexchange(0x30, //Read signature byte
 	      0x00,
-	      0x00, //&0x03 is sig adr
-	      0x00 //don't care.
+	      i&0x03,      //sig adr
+	      0x00         //don't care.
 	      );
 }
 
+//! Erase an AVR device
+void avr_erase(){
+  avrexchange(0xAC, 0x80, 0, 0);
+}
+
+//! Read lock bits.
+u8 avr_lockbits(){
+  return avrexchange(0x58, 0, 0, 0);
+}
+
+//! Read a byte of EEPROM.
+u8 avr_peekeeprom(u16 adr){
+  return avrexchange(0xA0, adr>>8, adr&0xFF, 0);
+}
+//! Read a byte of EEPROM.
+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);
+}
+
+
 //! Handles an AVR command.
 void avrhandle(unsigned char app,
 	       unsigned char verb,
 	       unsigned long len){
   unsigned long i;
+  unsigned int at;
+  static u8 connected=0;
   
+  if(!avr_isready() && connected)
+    debugstr("AVR is not yet ready.");
   
   switch(verb){
   case READ:
   case WRITE:
     for(i=0;i<len;i++)
-      cmddata[i]=spitrans8(cmddata[i]);
+      cmddata[i]=avrtrans8(cmddata[i]);
     txdata(app,verb,len);
     break;
   case SETUP:
@@ -110,10 +150,43 @@ void avrhandle(unsigned char app,
     avrconnect();
     //no break here
   case AVR_PEEKSIG:
-    cmddata[0]=avr_devicecode();
+    for(i=0;i<4;i++)
+      cmddata[i]=avr_sig(i);
+    txdata(app,verb,4);
+    break;
+  case AVR_ERASE:
+    avr_erase();
+    txdata(app,verb,0);
+    break;
+  case AVR_PEEKLOCK:
+    cmddata[0]=avr_lockbits();
+    txdata(app,verb,1);
+    break;
+
+  case AVR_POKEEEPROM:
+    avr_pokeeeprom(cmddataword[0], cmddata[2]);
+    //no break here.
+  case AVR_PEEKEEPROM:
+    cmddata[0]=avr_peekeeprom(cmddataword[0]);
     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.");