print "Freq %10i MHz" % (client.RF_getfreq()/10**6);
print "Rate %10i kbps" % (client.RF_getrate()/1000);
print "PacketLen %02i bytes" % client.RF_getpacketlen();
- print "MacLen %2i bytes" % client.RF_getmaclen();
+ #print "MacLen %2i bytes" % client.RF_getmaclen();
print "SMAC 0x%010x" % client.RF_getsmac();
print "TMAC 0x%010x" % client.RF_gettmac();
print "%s info" % sys.argv[0];
print "%s test" % sys.argv[0];
print "%s regs" % sys.argv[0];
+ print "%s pyregs" % sys.argv[0];
+
print "%s sniff\n\tSniffs packets by current config." % sys.argv[0];
print "%s sniffob\n\tSniffs OpenBeacon traffic." % sys.argv[0];
+ print "%s snifftp\n\tSniffs Turning Point Clicker traffic." % sys.argv[0];
+ print "%s snifftp\n\tSniffs SparkFun Dongle traffic." % sys.argv[0];
+
+ print "%s hosttp\n\tHosts Turning Point Clicker traffic." % sys.argv[0];
+
print "%s carrier [freq]\n\tHolds a carrier on [freq] Hz." % sys.argv[0];
sys.exit();
client.poke(0x00,0x00); #Stop nRF
client.poke(0x01,0x00); #Disable Shockburst
client.poke(0x02,0x01); #Set RX Pipe 0
- client.RF_setmaclen(5); # SETUP_AW for 5-byte addresses.
+
client.RF_setfreq(2481 * 10**6);
client.poke(0x06,0x09); #2MBps, -18dBm in RF_SETUP
client.poke(0x07,0x78); #Reset status register
#OpenBeacon defines these in little endian as follows.
+ client.RF_setmaclen(5); # SETUP_AW for 5-byte addresses.
#0x01, 0x02, 0x03, 0x02, 0x01
client.RF_setsmac(0x0102030201);
#'O', 'C', 'A', 'E', 'B'
#Set packet length of 16.
client.RF_setpacketlen(16);
- #Power radio, prime for RX, checksum.
- client.poke(0x00,0x70|0x03|0x08);
+ #Power radio, prime for RX, one-byte checksum.
+ client.poke(0x00,0x70|0x03|0x08); #0x08 for one byte, 0x04 for two.
print "Listening as %010x on %i MHz" % (client.RF_getsmac(),
client.RF_getfreq()/10**6);
#Now we're ready to get packets.
+ while 1:
+ packet=None;
+ while packet==None:
+ #time.sleep(0.1);
+ packet=client.RF_rxpacket();
+ printpacket(packet);
+ sys.stdout.flush();
+
+if(sys.argv[1]=="sniffsf"):
+ #Reversal of transmitter code from nRF_CMD.c of OpenBeacon
+ #TODO remove all poke() calls.
+
+ client.poke(0x00,0x00); #Stop nRF
+ client.poke(0x01,0x00); #Disable Shockburst
+ client.poke(0x02,0x01); #Set RX Pipe 0
+
+ client.RF_setfreq(2402 * 10**6);
+ client.poke(0x06,0x07); #1Mbps
+ client.poke(0x07,0x78); #Reset status register
+
+ #OpenBeacon defines these in little endian as follows.
+ client.RF_setmaclen(5); # SETUP_AW for 5-byte addresses.
+ #0x01, 0x02, 0x03, 0x02, 0x01
+ client.RF_setsmac(0xe7e7e7e7e7);
+ #'O', 'C', 'A', 'E', 'B'
+ client.RF_settmac(0xe7e7e7e7e7);
+
+ #Set packet length of 16.
+ client.RF_setpacketlen(4);
+
+ #Power radio, prime for RX, one-byte checksum.
+ client.poke(0x00,0x70|0x03|0x08); #0x08 for one byte, 0x04 for two.
+ print "Listening as %010x on %i MHz" % (client.RF_getsmac(),
+ client.RF_getfreq()/10**6);
+ #Now we're ready to get packets.
while 1:
packet=None;
while packet==None:
printpacket(packet);
sys.stdout.flush();
+if(sys.argv[1]=="snifftp"):
+ client.poke(0x00,0x00); #Stop nRF
+ client.poke(0x01,0x00); #Disable Shockburst
+ client.poke(0x02,0x01); #Set RX Pipe 0
+
+ client.RF_setfreq((2400+0x29) * 10**6);
+ client.poke(0x06,0x00); #1Mbps
+ client.poke(0x07,0x78); #Reset status register
+
+ client.RF_setmaclen(3); # SETUP_AW for 3-byte addresses.
+ client.RF_setsmac(0x123456);
+ client.RF_setpacketlen(4);
+
+ #Power radio, prime for RX, two-byte checksum.
+ client.poke(0x00,0x70|0x03|0x04|0x08);
+
+ print "Listening as %010x on %i MHz" % (client.RF_getsmac(),
+ client.RF_getfreq()/10**6);
+ #Now we're ready to get packets.
+ while 1:
+ packet=None;
+ while packet==None:
+ #time.sleep(0.1);
+ packet=client.RF_rxpacket();
+ printpacket(packet);
+ sys.stdout.flush();
+
+if(sys.argv[1]=="hosttp"):
+ client.poke(0x00,0x00); #Stop nRF
+ client.poke(0x01,0x00); #Disable Shockburst
+ client.poke(0x02,0x01); #Set RX Pipe 0
+
+ chan=0x29;
+
+ client.RF_setfreq((2400+chan) * 10**6);
+ client.poke(0x06,0x00); #1Mbps
+ client.poke(0x07,0x78); #Reset status register
+
+ client.RF_setmaclen(3); # SETUP_AW for 3-byte addresses.
+ client.RF_setsmac(0x123456);
+ client.RF_setpacketlen(4);
+
+ #Power radio, prime for RX, two-byte checksum.
+ client.poke(0x00,0x70|0x03|0x04|0x08);
+
+ print "Listening as %010x on %i MHz" % (client.RF_getsmac(),
+ client.RF_getfreq()/10**6);
+ #Now we're ready to get packets.
+ while 1:
+ packet=None;
+ while packet==None:
+ packet=client.RF_rxpacket();
+ mac=((ord(packet[0])<<16)+
+ (ord(packet[1])<<8)+
+ ord(packet[2]));
+ key=packet[3];
+ print "%c from %06x" % (key,mac);
+ sys.stdout.flush();
+
if(sys.argv[1]=="sniff"):
#client.poke(0x00,0x00); #Stop nRF
client.poke(0x07,0x78); #Reset status register
packet=client.RF_rxpacket();
printpacket(packet);
sys.stdout.flush();
+if(sys.argv[1]=="explore"):
+ #client.poke(0x00,0x00); #Stop nRF
+ client.poke(0x07,0x78); #Reset status register
+
+ #Power radio, prime for RX, no checksum.
+ client.poke(0x00,0x70|0x03);
+
+ #Set packet length of 32.
+ #Without checksums, extra data will mix in.
+ client.RF_setpacketlen(32);
+ client.RF_setmaclen(3); # shortest address length
+
+ #Now we're ready to get packets.
+ for smac in [0x0102030201, 0]:
+ client.RF_setsmac(smac);
+ for chan in range(0,0x80):
+ client.RF_setfreq((2400+chan) * 10**6);
+ time.sleep(1);
+ packet=client.RF_rxpacket();
+ if packet!=None:
+ print "Listening as %010x on %i MHz" % (client.RF_getsmac(),
+ client.RF_getfreq()/10**6);
+ printpacket(packet);
+ sys.stdout.flush();