import sys, time, string, cStringIO, struct, glob, serial, os;
import sqlite3;
+fmt = ("B", "<H", None, "<L")
+
def getClient(name="GoodFET"):
- import GoodFET, GoodFETCC, GoodFETAVR, GoodFETSPI, GoodFETMSP430;
+ import GoodFET, GoodFETCC, GoodFETAVR, GoodFETSPI, GoodFETMSP430, GoodFETNRF;
if(name=="GoodFET" or name=="monitor"): return GoodFET.GoodFET();
- elif name=="cc" or name=="chipcon": return GoodFETCC.GoodFETCC();
+ elif name=="cc" or name=="cc51": return GoodFETCC.GoodFETCC();
+ elif name=="cc2420" or name=="ccspi": return GoodFETCC.GoodFETCC();
elif name=="avr": return GoodFETAVR.GoodFETAVR();
elif name=="spi": return GoodFETSPI.GoodFETSPI();
elif name=="msp430": return GoodFETMSP430.GoodFETMSP430();
+ elif name=="nrf": return GoodFETNRF.GoodFETNRF();
print "Unsupported target: %s" % name;
sys.exit(0);
class GoodFET:
"""GoodFET Client Library"""
+
+ besilent=0;
+ app=0;
+ verb=0;
+ count=0;
+ data="";
+ verbose=False
GLITCHAPP=0x71;
+ MONITORAPP=0x00;
symbols=SymbolTable();
def __init__(self, *args, **kargs):
return self.symbols.get(name);
def timeout(self):
print "timeout\n";
- def serInit(self, port=None):
+ def serInit(self, port=None, timeout=2):
"""Open the serial port"""
+ # Make timeout None to wait forever, 0 for non-blocking mode.
if port is None and os.environ.get("GOODFET")!=None:
glob_list = glob.glob(os.environ.get("GOODFET"));
if len(glob_list) > 0:
port = glob_list[0];
+ else:
+ port = os.environ.get("GOODFET");
if port is None:
glob_list = glob.glob("/dev/tty.usbserial*");
if len(glob_list) > 0:
glob_list = glob.glob("/dev/ttyUSB*");
if len(glob_list) > 0:
port = glob_list[0];
+ if os.name=='nt':
+ from scanwin32 import winScan;
+ scan=winScan();
+ for order,comport,desc,hwid in sorted(scan.comports()):
+ try:
+ if hwid.index('FTDI')==0:
+ port=comport;
+ #print "Using FTDI port %s" % port
+ except:
+ #Do nothing.
+ a=1;
self.serialport = serial.Serial(
port,
#9600,
115200,
- parity = serial.PARITY_NONE
+ parity = serial.PARITY_NONE,
+ timeout=timeout
)
- #This might cause problems, but it makes failure graceful.
- #self.serialport._timeout = 5;
-
- #Explicitly set RTS and DTR to halt board.
- self.serialport.setRTS(1);
- self.serialport.setDTR(1);
- #Drop DTR, which is !RST, low to begin the app.
- self.serialport.setDTR(0);
- self.serialport.flushInput()
- self.serialport.flushOutput()
-
- #Read and handle the initial command.
- #time.sleep(1);
- self.readcmd(); #Read the first command.
- if(self.verb!=0x7F):
- print "Verb %02x is wrong. Incorrect firmware?" % self.verb;
- #print "Connected."
+ self.verb=0;
+ attempts=0;
+ connected=0;
+ while connected==0:
+ while self.verb!=0x7F or self.data!="http://goodfet.sf.net/":
+ #print "Resyncing.";
+ self.serialport.flushInput()
+ self.serialport.flushOutput()
+ #Explicitly set RTS and DTR to halt board.
+ self.serialport.setRTS(1);
+ self.serialport.setDTR(1);
+ #Drop DTR, which is !RST, low to begin the app.
+ self.serialport.setDTR(0);
+
+ #TelosB reset, prefer software to I2C SPST Switch.
+ if(os.environ.get("platform")=='telosb'):
+ self.telosBReset();
+ #self.serialport.write(chr(0x80));
+ #self.serialport.write(chr(0x80));
+ #self.serialport.write(chr(0x80));
+ #self.serialport.write(chr(0x80));
+
+
+ self.serialport.flushInput()
+ self.serialport.flushOutput()
+ #time.sleep(60);
+ attempts=attempts+1;
+ self.readcmd(); #Read the first command.
+ #Here we have a connection, but maybe not a good one.
+ connected=1;
+ olds=self.infostring();
+ clocking=self.monitorclocking();
+ for foo in range(1,30):
+ if not self.monitorecho():
+ if self.verbose: print "Comm error on %i try, resyncing out of %s." % (foo,
+ clocking);
+ connected=0;
+ break;
+ if self.verbose: print "Connected after %02i attempts." % attempts;
+ self.mon_connected();
+ self.serialport.setTimeout(12);
+ def telosSetSCL(self, level):
+ self.serialport.setRTS(not level)
+ def telosSetSDA(self, level):
+ self.serialport.setDTR(not level)
+
+ def telosI2CStart(self):
+ self.telosSetSDA(1)
+ self.telosSetSCL(1)
+ self.telosSetSDA(0)
+
+ def telosI2CStop(self):
+ self.telosSetSDA(0)
+ self.telosSetSCL(1)
+ self.telosSetSDA(1)
+
+ def telosI2CWriteBit(self, bit):
+ self.telosSetSCL(0)
+ self.telosSetSDA(bit)
+ time.sleep(2e-6)
+ self.telosSetSCL(1)
+ time.sleep(1e-6)
+ self.telosSetSCL(0)
+
+ def telosI2CWriteByte(self, byte):
+ self.telosI2CWriteBit( byte & 0x80 );
+ self.telosI2CWriteBit( byte & 0x40 );
+ self.telosI2CWriteBit( byte & 0x20 );
+ self.telosI2CWriteBit( byte & 0x10 );
+ self.telosI2CWriteBit( byte & 0x08 );
+ self.telosI2CWriteBit( byte & 0x04 );
+ self.telosI2CWriteBit( byte & 0x02 );
+ self.telosI2CWriteBit( byte & 0x01 );
+ self.telosI2CWriteBit( 0 ); # "acknowledge"
+
+ def telosI2CWriteCmd(self, addr, cmdbyte):
+ self.telosI2CStart()
+ self.telosI2CWriteByte( 0x90 | (addr << 1) )
+ self.telosI2CWriteByte( cmdbyte )
+ self.telosI2CStop()
+
+ def telosBReset(self,invokeBSL=0):
+ # "BSL entry sequence at dedicated JTAG pins"
+ # rst !s0: 0 0 0 0 1 1
+ # tck !s1: 1 0 1 0 0 1
+ # s0|s1: 1 3 1 3 2 0
+
+ # "BSL entry sequence at shared JTAG pins"
+ # rst !s0: 0 0 0 0 1 1
+ # tck !s1: 0 1 0 1 1 0
+ # s0|s1: 3 1 3 1 0 2
+
+ if invokeBSL:
+ self.telosI2CWriteCmd(0,1)
+ self.telosI2CWriteCmd(0,3)
+ self.telosI2CWriteCmd(0,1)
+ self.telosI2CWriteCmd(0,3)
+ self.telosI2CWriteCmd(0,2)
+ self.telosI2CWriteCmd(0,0)
+ else:
+ self.telosI2CWriteCmd(0,3)
+ self.telosI2CWriteCmd(0,2)
+
+ # This line was not defined inside the else: block, not sure where it
+ # should be however
+ self.telosI2CWriteCmd(0,0)
+ time.sleep(0.250) #give MSP430's oscillator time to stabilize
+ self.serialport.flushInput() #clear buffers
+
+
def getbuffer(self,size=0x1c00):
writecmd(0,0xC2,[size&0xFF,(size>>16)&0xFF]);
print "Got %02x%02x buffer size." % (self.data[1],self.data[0]);
#little endian 16-bit length
self.serialport.write(chr(count&0xFF));
self.serialport.write(chr(count>>8));
+
+ if self.verbose:
+ print "Tx: ( 0x%02x, 0x%02x, 0x%04x )" % ( app, verb, count )
#print "count=%02x, len(data)=%04x" % (count,len(data));
outstr=''.join(data);
self.serialport.write(outstr);
if not self.besilent:
- self.readcmd();
-
- besilent=0;
- app=0;
- verb=0;
- count=0;
- data="";
+ return self.readcmd()
+ else:
+ return []
def readcmd(self):
"""Read a reply from the GoodFET."""
- while 1:
- #print "Reading...";
- self.app=ord(self.serialport.read(1));
- #print "APP=%2x" % self.app;
- self.verb=ord(self.serialport.read(1));
- #print "VERB=%02x" % self.verb;
- self.count=(
- ord(self.serialport.read(1))
- +(ord(self.serialport.read(1))<<8)
- );
+ while 1:#self.serialport.inWaiting(): # Loop while input data is available
+ try:
+ #print "Reading...";
+ self.app=ord(self.serialport.read(1));
+ #print "APP=%2x" % self.app;
+ self.verb=ord(self.serialport.read(1));
+ #print "VERB=%02x" % self.verb;
+ self.count=(
+ ord(self.serialport.read(1))
+ +(ord(self.serialport.read(1))<<8)
+ );
+
+ if self.verbose:
+ print "Rx: ( 0x%02x, 0x%02x, 0x%04x )" % ( self.app, self.verb, self.count )
- #Debugging string; print, but wait.
- if self.app==0xFF and self.verb==0xFF:
- print "# DEBUG %s" % self.serialport.read(self.count);
- sys.stdout.flush();
- else:
- self.data=self.serialport.read(self.count);
+ #Debugging string; print, but wait.
+ if self.app==0xFF:
+ if self.verb==0xFF:
+ print "# DEBUG %s" % self.serialport.read(self.count)
+ elif self.verb==0xFE:
+ print "# DEBUG 0x%x" % struct.unpack(fmt[self.count-1], self.serialport.read(self.count))[0]
+ elif self.verb==0xFD:
+ #Do nothing, just wait so there's no timeout.
+ print "# NOP.";
+
+ sys.stdout.flush();
+ else:
+ self.data=self.serialport.read(self.count);
+ return self.data;
+ except TypeError:
+ if self.connected:
+ print "Warning: waiting for serial read timed out (most likely).";
+ #print "This shouldn't happen after syncing. Exiting for safety.";
+ #sys.exit(-1)
return self.data;
#Glitching stuff.
def glitchApp(self,app):
"""Time the execution of a verb."""
if data==None: data=[];
self.data=[app&0xff, verb&0xFF]+data;
+ print "Timing app %02x verb %02x." % (app,verb);
self.writecmd(self.GLITCHAPP,0x82,len(self.data),self.data);
- return ord(self.data[0])+(ord(self.data[1])<<8);
+ time=ord(self.data[0])+(ord(self.data[1])<<8);
+ print "Timed to be %i." % time;
+ return time;
def glitchVoltages(self,low=0x0880, high=0x0fff):
"""Set glitching voltages. (0x0fff is max.)"""
self.data=[low&0xff, (low>>8)&0xff,
self.besilent=s;
print "besilent is %i" % self.besilent;
self.writecmd(0,0xB0,1,[s]);
-
+ connected=0;
+ def mon_connected(self):
+ """Announce to the monitor that the connection is good."""
+ self.connected=1;
+ self.writecmd(0,0xB1,0,[]);
def out(self,byte):
"""Write a byte to P5OUT."""
self.writecmd(0,0xA1,1,[byte]);
"""Execute supplied code."""
self.writecmd(0,0x31,2,#len(code),
code);
- def peekbyte(self,address):
+ def MONpeek8(self,address):
"""Read a byte of memory from the monitor."""
self.data=[address&0xff,address>>8];
self.writecmd(0,0x02,2,self.data);
#self.readcmd();
return ord(self.data[0]);
- def peekword(self,address):
+ def MONpeek16(self,address):
+ """Read a word of memory from the monitor."""
+ return self.MONpeek8(address)+(self.MONpeek8(address+1)<<8);
+ def peek(self,address):
+ """Read a word of memory from the monitor."""
+ return self.MONpeek8(address)+(self.MONpeek8(address+1)<<8);
+ def eeprompeek(self,address):
"""Read a word of memory from the monitor."""
- return self.peekbyte(address)+(self.peekbyte(address+1)<<8);
- def pokebyte(self,address,value):
+ return self.MONpeek8(address)+(self.MONpeek8(address+1)<<8);
+ def peekbysym(self,name):
+ """Read a value by its symbol name."""
+ #TODO include memory in symbol.
+ reg=self.symbols.get(name);
+ return self.peek8(reg,"data");
+ def pokebysym(self,name,val):
+ """Write a value by its symbol name."""
+ #TODO include memory in symbol.
+ reg=self.symbols.get(name);
+ return self.pokebyte(reg,val);
+ def pokebyte(self,address,value,memory="vn"):
"""Set a byte of memory by the monitor."""
self.data=[address&0xff,address>>8,value];
self.writecmd(0,0x03,3,self.data);
return ord(self.data[0]);
+ def poke16(self,address,value):
+ """Set a word of memory by the monitor."""
+ self.pokebyte(address,value&0xFF);
+ self.pokebyte(address,(value>>8)&0xFF);
+ return value;
+ def setsecret(self,value):
+ """Set a secret word for later retreival. Used by glitcher."""
+ self.eeprompoke(0,value);
+ self.eeprompoke(1,value);
+ def getsecret(self):
+ """Get a secret word. Used by glitcher."""
+ self.eeprompeek(0);
+
def dumpmem(self,begin,end):
i=begin;
while i<end:
- print "%04x %04x" % (i, self.peekword(i));
+ print "%04x %04x" % (i, self.MONpeek16(i));
i+=2;
def monitor_ram_pattern(self):
"""Overwrite all of RAM with 0xBEEF."""
def monitortest(self):
"""Self-test several functions through the monitor."""
print "Performing monitor self-test.";
-
- if self.peekword(0x0c00)!=0x0c04 and self.peekword(0x0c00)!=0x0c06:
- print "ERROR Fetched wrong value from 0x0c04.";
- self.pokebyte(0x0021,0); #Drop LED
- if self.peekbyte(0x0021)!=0:
- print "ERROR, P1OUT not cleared.";
- self.pokebyte(0x0021,1); #Light LED
-
+ self.monitorclocking();
+ for f in range(0,3000):
+ a=self.MONpeek16(0x0c00);
+ b=self.MONpeek16(0x0c02);
+ if a!=0x0c04 and a!=0x0c06:
+ print "ERROR Fetched %04x, %04x" % (a,b);
+ self.pokebyte(0x0021,0); #Drop LED
+ if self.MONpeek8(0x0021)!=0:
+ print "ERROR, P1OUT not cleared.";
+ self.pokebyte(0x0021,1); #Light LED
+ if not self.monitorecho():
+ print "Echo test failed.";
print "Self-test complete.";
+ self.monitorclocking();
+ def monitorecho(self):
+ data="The quick brown fox jumped over the lazy dog.";
+ self.writecmd(self.MONITORAPP,0x81,len(data),data);
+ if self.data!=data:
+ if self.verbose: print "Comm error recognized by monitorecho().";
+ return 0;
+ return 1;
+
+ def monitor_info(self):
+ print "GoodFET with %s MCU" % self.infostring();
+ print "Clocked at %s" % self.monitorclocking();
+ return 1;
+
+ def monitor_list_apps(self, full=False):
+ self.monitor_info()
+ old_value = self.besilent
+ self.besilent = True # turn off automatic call to readcmd
+ self.writecmd(self.MONITORAPP, 0x82, 1, [int(full)]);
+ self.besilent = old_value
+
+ # read the build date string
+ self.readcmd()
+ print "Build Date: %s" % self.data
+ print "Firmware apps:"
+ while True:
+ self.readcmd()
+ if self.count == 0:
+ break
+ print self.data
+ return 1;
+
+ def monitorclocking(self):
+ """Return the 16-bit clocking value."""
+ return "0x%04x" % self.monitorgetclock();
-
+ def monitorsetclock(self,clock):
+ """Set the clocking value."""
+ self.MONpoke16(0x56, clock);
+ def monitorgetclock(self):
+ """Get the clocking value."""
+ return self.MONpeek16(0x56);
# The following functions ought to be implemented in
# every client.
-
+
def infostring(self):
- a=self.peekbyte(0xff0);
- b=self.peekbyte(0xff1);
+ a=self.MONpeek8(0xff0);
+ b=self.MONpeek8(0xff1);
return "%02x%02x" % (a,b);
def lock(self):
print "Locking Unsupported.";
def dump(self,file,start=0,stop=0xffff):
"""Dump an intel hex file from code memory."""
print "Dump not implemented.";
-
def peek32(self,address, memory="vn"):
+ """Peek 32 bits."""
return (self.peek16(address,memory)+
(self.peek16(address+2,memory)<<16));
def peek16(self,address, memory="vn"):
+ """Peek 16 bits of memory."""
return (self.peek8(address,memory)+
(self.peek8(address+1,memory)<<8));
def peek8(self,address, memory="vn"):
- return self.peekbyte(address); #monitor
+ """Peek a byte of memory."""
+ return self.MONpeek8(address); #monitor
+ def peekblock(self,address,length,memory="vn"):
+ """Return a block of data."""
+ data=range(0,length);
+ for foo in range(0,length):
+ data[foo]=self.peek8(address+foo,memory);
+ return data;
+ def pokeblock(self,address,bytes,memory="vn"):
+ """Poke a block of a data into memory at an address."""
+ for foo in bytes:
+ self.pokebyte(address,foo,memory);
+ address=address+1;
+ return;
def loadsymbols(self):
+ """Load symbols from a file."""
return;