# where low is the low end of values for the fuzz, high is the high end value
# period is the time between sending packets in milliseconds, writesPerFuzz is the times the
# same fuzzed packet will be injecetez. Fuzzes is the number of different packets to be injected
- def generationFuzzer(self,freq, standardId, dbLimits, period, writesPerFuzz, Fuzzes):
+ def generationFuzzer(self,freq, standardIDs, dbLimits, period, writesPerFuzz, Fuzzes):
+ #print "Fuzzing on standard ID: %d" %standardId
+ self.client.serInit()
+ self.spitSetup(freq)
+ packet = [0,0,0x00,0x00,0x08,0,0,0,0,0,0,0,0] #empty template
+ #form a basic packet
+
+# #### split SID into different regs
+# SIDlow = (standardIds[0] & 0x07) << 5; # get SID bits 2:0, rotate them to bits 7:5
+# SIDhigh = (standardIds[0] >> 3) & 0xFF; # get SID bits 10:3, rotate them to bits 7:0
+#
+# packet = [SIDhigh, SIDlow, 0x00,0x00, # pad out EID regs
+# 0x08, # bit 6 must be set to 0 for data frame (1 for RTR)
+# # lower nibble is DLC
+# packetTemp[0],packetTemp[1],packetTemp[2],packetTemp[3],packetTemp[4],packetTemp[5],packetTemp[6],packetTemp[7]]
+#
+
+ #get folder information (based on today's date)
+ now = datetime.datetime.now()
+ datestr = now.strftime("%Y%m%d")
+ path = self.DATALOCATION+"InjectedData/"+datestr+"_GenerationFuzzedPackets.csv"
+ filename = path
+ outfile = open(filename,'a');
+ dataWriter = csv.writer(outfile,delimiter=',');
+ #dataWriter.writerow(['# Time Error Bytes 1-13']);
+ #dataWriter.writerow(['#' + description])
+
+ numIds = len(standardIDs)
+ fuzzNumber = 0;
+ while( fuzzNumber < Fuzzes):
+ id_new = standardIDs[random.randint(0,numIds-1)]
+ #### split SID into different regs
+ SIDlow = (id_new & 0x07) << 5; # get SID bits 2:0, rotate them to bits 7:5
+ SIDhigh = (id_new >> 3) & 0xFF; # get SID bits 10:3, rotate them to bits 7:0
+ packet[0] = SIDhigh
+ packet[1] = SIDlow
+
+ #generate a fuzzed packet
+ for i in range(0,8): # for each databyte, fuzz it
+ idx = "db%d"%i
+ limits = dbLimits[idx]
+ value = random.randint(limits[0],limits[1]) #generate pseudo-random integer value
+ packet[i+5] = value
+
+ #put a rough time stamp on the data and get all the data bytes
+ row = [time.time(), id_new,8]
+ msg = "Injecting: "
+ for i in range(5,13):
+ row.append(packet[i])
+ msg += " %d"%packet[i]
+ #print msg
+ dataWriter.writerow(row)
+ self.client.txpacket(packet)
+ #inject the packet repeatily
+ for i in range(1,writesPerFuzz):
+ self.client.MCPrts(TXB0=True)
+ time.sleep(period/1000)
+ fuzzNumber += 1
+ print "Fuzzing Complete"
+ outfile.close()
+
+
+ def generationFuzzRandomID(self, freq, standardIDs, dbLimits, period, writesPerFuzz, Fuzzes):
print "Fuzzing on standard ID: %d" %standardId
self.client.serInit()
self.spitSetup(freq)
#dataWriter.writerow(['# Time Error Bytes 1-13']);
#dataWriter.writerow(['#' + description])
-
+ numIds = len(standardIDs)
fuzzNumber = 0;
while( fuzzNumber < Fuzzes):
+ id_new = standsardIDs[random.randint(0,numIds-1)]
+ #### split SID into different regs
+ SIDlow = (id_new & 0x07) << 5; # get SID bits 2:0, rotate them to bits 7:5
+ SIDhigh = (id_new >> 3) & 0xFF; # get SID bits 10:3, rotate them to bits 7:0
+ packet[0] = SIDhigh
+ packet[1] = SIDlow
+
#generate a fuzzed packet
for i in range(0,8): # for each databyte, fuzz it
idx = "db%d"%i
self.client.MCPrts(TXB0=True)
time.sleep(period/1000)
fuzzNumber += 1
-
+ print "Fuzzing Complete"
outfile.close()
-
-
-
-
projects / goodfet / blobdiff