class GoodFETCC(GoodFET):
"""A GoodFET variant for use with Chipcon 8051 Zigbee SoC."""
APP=0x30;
+
+
+
+
smartrfpath="/opt/smartrf7";
+ def loadsymbols(self):
+ try: self.SRF_loadsymbols();
+ except:
+ if self.verbose==1: print "SmartRF load failed.";
def SRF_chipdom(self,chip="cc1110", doc="register_definition.xml"):
fn="%s/config/xml/%s/%s" % (self.smartrfpath,chip,doc);
- print "Opening %s" % fn;
+ #print "Opening %s" % fn;
return xml.dom.minidom.parse(fn)
+
def CMDrs(self,args=[]):
"""Chip command to grab the radio state."""
self.SRF_radiostate();
print "%-10s=0x%02x; /* %-50s */" % (
name,self.CCpeekdatabyte(eval(address)), description);
if bitfields!="": print bitfields.rstrip();
+ def RF_getrssi(self):
+ """Returns the received signal strenght, from 0 to 1."""
+ rssireg=self.symbols.get("RSSI");
+ return self.CCpeekdatabyte(rssireg);
+ def SRF_loadsymbols(self):
+ ident=self.CCident();
+ chip=self.CCversions.get(ident&0xFF00);
+ dom=self.SRF_chipdom(chip,"register_definition.xml");
+ for e in dom.getElementsByTagName("registerdefinition"):
+ for f in e.childNodes:
+ if f.localName=="Register":
+ name="unknownreg";
+ address="0xdead";
+ description="";
+ bitfields="";
+ for g in f.childNodes:
+ if g.localName=="Name":
+ name=g.childNodes[0].nodeValue;
+ elif g.localName=="Address":
+ address=g.childNodes[0].nodeValue;
+ elif g.localName=="Description":
+ if g.childNodes:
+ description=g.childNodes[0].nodeValue;
+ elif g.localName=="Bitfield":
+ bitfields+="%17s/* %-50s */\n" % ("",self.SRF_bitfieldstr(g));
+ #print "SFRX(%10s, %s); /* %50s */" % (name,address, description);
+ self.symbols.define(eval(address),name,description,"data");
def halt(self):
"""Halt the CPU."""
self.CChaltcpu();
CCversions={0x0100:"cc1110",
+ 0x1100:"cc1111",
0x8500:"cc2430",
0x8900:"cc2431",
0x8100:"cc2510",
0xB500:"cc2531",
0xFF00:"CCmissing"};
CCpagesizes={0x01: 1024, #"CC1110",
+ 0x11: 1024, #"CC1111",
0x85: 2048, #"CC2430",
0x89: 2048, #"CC2431",
0x81: 1024, #"CC2510",
def CCidentstr(self):
ident=self.CCident();
chip=self.CCversions.get(ident&0xFF00);
- return "%s/r%02x" % (chip, ident&0xFF);
+ pagesize=self.CCpagesizes.get(ident>0xFF);
+ try:
+ return "%s/r%0.4x/ps0x%0.4x" % (chip, ident, pagesize);
+ except:
+ return "%04x" % ident;
def CCident(self):
"""Get a chipcon's ID."""
self.writecmd(self.APP,0x8B,0,None);
size=self.CCpagesizes.get(chip);
if(size<10):
print "ERROR: Pagesize undefined.";
- print "chip=%02x" %chip;
+ print "chip=%0.4x" %chip;
sys.exit(1);
#return 2048;
return size;
def erase(self):
"""Erase all of the target's memory."""
self.CCchiperase();
+ self.start();
def CCstatus(self):
"""Check the status."""
#print "Status: %s." % self.status();
self.CCreleasecpu();
self.CChaltcpu();
+ #Get SmartRF Studio regs if they exist.
+ self.loadsymbols();
+
#print "Status: %s." % self.status();
def stop(self):
(adr>>24)&0xFF];
print "Flashing buffer to 0x%06x" % adr;
self.writecmd(self.APP,0x95,4,data);
+
+ def setsecret(self,value):
+ """Set a secret word for later retreival. Used by glitcher."""
+ page = 0x0000;
+ pagelen = self.CCpagesize(); #Varies by chip.
+ print "page=%04x, pagelen=%04x" % (page,pagelen);
+
+ self.CCeraseflashbuffer();
+ print "Setting secret to %x" % value;
+ self.CCpokedatabyte(0xF000,value);
+ self.CCpokedatabyte(0xF800,value);
+ print "Setting secret to %x==%x" % (value,
+ self.CCpeekdatabyte(0xf000));
+ self.CCflashpage(0);
+ print "code[0]=%x" % self.CCpeekcodebyte(0);
+ def getsecret(self):
+ """Get a secret word. Used by glitcher."""
+ secret=self.CCpeekcodebyte(0);
+ #print "Got secret %02x" % secret;
+ return secret;
+
+ def dump(self,file,start=0,stop=0xffff):
+ """Dump an intel hex file from code memory."""
+ print "Dumping code from %04x to %04x as %s." % (start,stop,file);
+ h = IntelHex(None);
+ i=start;
+ while i<=stop:
+ h[i]=self.CCpeekcodebyte(i);
+ if(i%0x100==0):
+ print "Dumped %04x."%i;
+ h.write_hex_file(file); #buffer to disk.
+ i+=1;
+ h.write_hex_file(file);
def flash(self,file):
"""Flash an intel hex file to code memory."""
projects / goodfet / blobdiff