2 # GoodFET Client Library
4 # (C) 2009 Travis Goodspeed <travis at radiantmachines.com>
6 # This code is being rewritten and refactored. You've been warned!
8 import sys, time, string, cStringIO, struct, glob, serial, os, random;
11 from GoodFET import *;
14 # After four million points, this kills 32-bit gnuplot.
15 # Dumping to a bitmap might be preferable.
17 plot "< sqlite3 glitch.db 'select time,vcc,glitchcount from glitches where count=0;'" \
20 "< sqlite3 glitch.db 'select time,vcc,count from glitches where count>0;'" \
23 "< sqlite3 glitch.db 'select time,vcc,count from glitches where count>0 and lock>0;'" \
27 script_timevccrange="""
28 plot "< sqlite3 glitch.db 'select time,vcc,glitchcount from glitches where count=0;'" \
31 "< sqlite3 glitch.db 'select time,vcc,count from glitches where count>0;'" \
34 "< sqlite3 glitch.db 'select time,max(vcc),count from glitches where count=0 group by time ;'" with lines title "Max", \
35 "< sqlite3 glitch.db 'select time,min(vcc),count from glitches where count>0 group by time ;'" with lines title "Min"
38 class GoodFETGlitch(GoodFET):
40 def __init__(self, *args, **kargs):
41 print "# Initializing GoodFET Glitcher."
42 #Database connection w/ 30 second timeout.
43 self.db=sqlite3.connect("glitch.db",30000);
46 self.db.execute("create table if not exists glitches(time,vcc,gnd,trials,glitchcount,count,lock);");
47 self.db.execute("create index if not exists glitchvcc on glitches(vcc);");
48 self.db.execute("create index if not exists glitchtime on glitches(time);");
50 #Exploitation record, to be built from the training table.
51 self.db.execute("create table if not exists exploits(time,vcc,gnd,trials,count);");
52 self.db.execute("create index if not exists exploitvcc on exploits(vcc);");
53 self.db.execute("create index if not exists exploittime on exploits(time);");
56 def setup(self,arch="avr"):
57 self.client=getClient(arch);
58 self.client.serInit();
60 def glitchvoltages(self,time):
61 """Returns list of voltages to train at."""
64 # (select min(vcc) from glitches where time=? and count=1),
65 # (select max(vcc) from glitches where time=? and count=0);""",
67 c.execute("select min,max from glitchrange where time=? and max-min>0;",[time]);
72 if(min==None or max==None): return [];
75 return range(min,max,1);
76 #If we get here, there are no points. Return empty set.
79 """This builds tables for glitching voltage ranges from the training set."""
80 print "Precomputing glitching ranges. This might take a long while.";
83 self.db.execute("drop table if exists glitchrange;");
84 self.db.execute("create table glitchrange(time integer primary key asc,max,min);");
86 print "Calculating ranges...";
93 c.execute("select time,vcc,count from glitches;"); #Limit 10000 for testing.
97 if progress % 1000000==0: print "%09i rows crunched." % progress;
102 try: oldmax=maxes[t];
104 if v>oldmax: maxes[t]=v;
107 except: oldmin=0x10000;
108 if v<oldmin: mins[t]=v;
109 print "List complete. Inserting.";
114 self.db.execute("insert into glitchrange(time,max,min) values (?,?,?)",(t,max,min));
116 print "Done, database crunched.";
119 import Gnuplot, Gnuplot.PlotItems, Gnuplot.funcutils
121 print "gnuplot-py is missing. Can't graph."
123 g = Gnuplot.Gnuplot(debug=1);
126 g.title('Glitch Training Set');
127 g.xlabel('Time (16MHz)');
128 g.ylabel('VCC (DAC12)');
130 g('set datafile separator "|"');
137 import Gnuplot, Gnuplot.PlotItems, Gnuplot.funcutils
138 g = Gnuplot.Gnuplot(debug=1);
141 g.title('Glitch Training Set');
142 g.xlabel('Time (16MHz)');
143 g.ylabel('VCC (DAC12)');
145 g('set datafile separator "|"');
147 g('set output "timevcc.png"');
151 c.execute("select time,vcc,gnd,glitchcount,count from glitches where lock=0 and count>0;");
152 print "time vcc gnd glitchcount count";
154 print "%i %i %i %i %i" % r;
155 #GnuPlot sucks for large sets. Switch to viewpoints soon.
156 # sqlite3 glitch.db "select time,vcc,count from glitches where count=0" | vp -l -d "|" -I
158 def explore(self,tstart=0,tstop=-1, trials=1):
159 """Exploration phase. Uses thresholds to find exploitable points."""
161 self.scansetup(1); #Lock the chip, place key in eeprom.
163 tstop=self.client.glitchstarttime();
164 times=range(tstart,tstop);
165 random.shuffle(times);
168 total=1.0*len(times);
171 c.execute("select time,min,max from glitchrange where max-min>0;");
174 random.shuffle(rows);
179 voltages=range(min,max,1);
181 print "%02.02f Exploring %04i points in t=%04i." % (count/total,len(voltages),t);
184 self.scanat(1,trials,vcc,gnd,t);
186 """Learning phase. Finds thresholds at which the chip screws up."""
188 lock=0; #1 locks, 0 unlocked
190 vstop=1024; #Could be as high as 0xFFF, but upper range is useless
193 tstop=self.client.glitchstarttime();
194 tstep=0x1; #Must be 1
195 self.scan(lock,trials,range(vstart,vstop),range(tstart,tstop));
196 print "Learning phase complete, beginning to expore.";
199 def scansetup(self,lock):
206 while(client.eeprompeek(0)!=self.secret):
207 print "-- Setting secret";
210 #Flash the secret to the first two bytes of CODE memory.
212 client.eeprompoke(0,self.secret);
213 client.eeprompoke(1,self.secret);
216 #Lock chip to unlock it later.
221 def scan(self,lock,trials,voltages,times):
222 """Scan many voltages and times."""
224 self.scansetup(lock);
226 random.shuffle(voltages);
227 #random.shuffle(times);
230 if lock<0 and not self.vccexplored(vcc):
231 print "Exploring vcc=%i" % vcc;
234 self.scanat(lock,trials,vcc,gnd,time)
238 print "Voltage %i already explored." % vcc;
242 def vccexplored(self,vcc):
244 c.execute("select vcc from glitches where vcc=? limit 1;",[vcc]);
250 def scanat(self,lock,trials,vcc,gnd,time):
252 client.glitchRate(time);
253 client.glitchVoltages(gnd, vcc); #drop voltage target
256 #print "-- (%5i,%5i)" % (time,vcc);
258 for i in range(0,trials):
259 client.glitchstart();
261 #Try to read *0, which is secret if read works.
262 a=client.eeprompeek(0x0);
264 if(a!=0 and a!=0xFF and a!=self.secret):
267 print "-- %06i: %02x HELL YEAH! " % (time, a);
274 #print "values (%i,%i,%i,%i,%i);" % (
275 # time,vcc,gnd,gcount,scount);
277 self.db.execute("insert into glitches(time,vcc,gnd,trials,glitchcount,count,lock)"
278 "values (%i,%i,%i,%i,%i,%i,%i);" % (
279 time,vcc,gnd,trials,gcount,scount,lock));
281 print "INSERTING AN EXPLOIT point, t=%i and vcc=%i" % (time,vcc);
282 self.db.execute("insert into exploits(time,vcc,gnd,trials,count)"
283 "values (%i,%i,%i,%i,%i);" % (
284 time,vcc,gnd,trials,scount));
285 self.db.commit(); #Don't leave a lock open.