5

I'm trying to get RSSI or signal strength from WiFi packets. I want also RSSI from 'WiFi probe requests' (when somebody is searching for a WiFi hotspots).

I managed to see it from kismet logs but that was only to make sure it is possible - I don't want to use kismet all the time.

For 'full time scanning' I'm using scapy. Does anybody know where can I find the RSSI or signal strength (in dBm) from the packets sniffed with scapy? I don't know how is the whole packet built - and there are a lot of 'hex' values which I don't know how to parse/interpret.

I'm sniffing on both interfaces - wlan0 (detecting when somebody connects to my hotspot), and mon.wlan0 (detecting when somebody is searching for hotspots). Hardware (WiFi card) I use is based on Prism chipset (ISL3886). However test with Kismet was ran on Atheros (AR2413) and Intel iwl4965.

Edit1:

Looks like I need to access somehow information stored in PrismHeader: http://trac.secdev.org/scapy/browser/scapy/layers/dot11.py line 92 ?

Anybody knows how to enter this information? packet.show() and packet.show2() don't show anything from this Class/Layer

Edit2:

After more digging it appears that the interface just isn't set correctly and that's why it doesn't collect all necessary headers. If I run kismet and then sniff packets from that interface with scapy there is more info in the packet:

###[ RadioTap dummy ]###
  version= 0
  pad= 0
  len= 26
  present= TSFT+Flags+Rate+Channel+dBm_AntSignal+Antenna+b14
  notdecoded= '8`/\x08\x00\x00\x00\x00\x10\x02\x94\t\xa0\x00\xdb\x01\x00\x00'
  ...

Now I only need to set the interface correctly without using kismet.

  • Now decided in scapy 2.4.1+ or the github version – Cukic0d Jul 2 '18 at 9:21
3

Here is a valuable scapy extension that improves scapy.layers.dot11.Packet's parsing of present not decoded fields.

https://github.com/ivanlei/airodump-iv/blob/master/airoiv/scapy_ex.py

Just use:

import scapy_ex

And:

packet.show()

It'll look like this:

###[ 802.11 RadioTap ]###
  version   = 0
  pad       = 0
  RadioTap_len= 18
  present   = Flags+Rate+Channel+dBm_AntSignal+Antenna+b14
  Flags     = 0
  Rate      = 2
  Channel   = 1
  Channel_flags= 160
  dBm_AntSignal= -87
  Antenna   = 1
  RX_Flags  = 0
  • 1
    You're best to clone the git repo and run the import scapy_ex from the airoiv directory as there other dependent files required by just scapy_ex.py (e.g. printer.py). Then it works nicely. – Pierz Jun 8 '15 at 13:24
  • Not requires anymore as merged into the main repo – Cukic0d Jul 11 '18 at 15:25
  • Doing this completely messed up the Dot11Beacon frame structure. Some tests like pkt.haslayer are no longer useful. – Shiri Jul 17 '18 at 5:43
3

To summarize:

  • signal strength was not visible because something was wrong in the way that 'monitor mode' was set (not all headers were passed/parsed by sniffers). This monitor interface was created by hostapd.

  • now I'm setting monitor mode on interface with airmon-ng - tcpdump, scapy show theese extra headers.

Edited: use scapy 2.4.1+ (or github dev version). Most recent versions now correctly decode the « notdecoded » part

  • Any updates? were you able to get the RSSi values? – alandalusi Feb 15 '13 at 18:47
  • 5
    Yes I was. It's 'hidden' in the notdecoded part of the packet. I'm extracting it with: sig_str = -(256-ord(packet.notdecoded[-4:-3])) – kaczor1984 Feb 18 '13 at 16:13
  • @kaczor1984 I tried: sig_str = -(256-ord(packet.notdecoded[-4:-3])) and I get values like -69, -79, -81 etc. How do you interpret these values? – zengr Jul 28 '13 at 8:46
  • Just like you see them. RSSI between -100 and 0 where 0 means that device was exactly at the place of 'detector' and -100 means very far away. Of course I don't get usually values higher than ~-30. – kaczor1984 Jul 29 '13 at 12:10
2

For some reason the packet structure has changed. Now dBm_AntSignal is the first element in notdecoded.

I am not 100% sure of this solution but I used sig_str = -(256 - ord(packet.notdecoded[-2:-1])) to reach first element and I get values that seems to be dBm_AntSignal.

I am using OpenWRT in a TP-Link MR3020 with extroot and Edward Keeble Passive Wifi Monitoring project with some modifications.

I use scapy_ex.py and I had this information:

802.11 RadioTap

  version   = 0

  pad       = 0

  RadioTap_len= 36

  present   = dBm_AntSignal+Lock_Quality+b22+b24+b25+b26+b27+b29

  dBm_AntSignal= 32

  Lock_Quality= 8
  • It's not. Every computer displays different information depending on the driver, the interface is using... – Shiri Jul 17 '18 at 5:40
1

If someone still has the same issue, I think I have found the solution:

I believe this is the right cut for the RSSI value:

sig_str = -(256-ord(packet.notdecoded[-3:-2]))

and this one is for the noise level:

noise_str = -(256-ord(packet.notdecoded[-2:-1]))
  • 1
    This may work on your machine, but isn’t a universal fix. Notdecoded is full of all tags added by your driver, meaning that you should check which flags are present. ([-4:-3] will not be the same on every computer). In most recent version of scapy (2.4.1+ or the github dev version, it is now properly decoded) – Cukic0d Jul 2 '18 at 9:19
0

The fact that it says "RadioTap" suggests that the device may supply Radiotap headers, not Prism headers, even though it has a Prism chipset. The p54 driver appears to be a "SoftMAC driver", in which case it'll probably supply Radiotap headers; are you using the p54 driver or the older prism54 driver?

0

I have similar problem, I set up the monitor mode with airmon-ng and I can see the dBm level in tcpdump but whenever I try the sig_str = -(256-ord(packet.notdecoded[-4:-3])) I get -256 because the returned value from notdecoded in 0. Packet structure looks like this.

 version   = 0
 pad       = 0
 len       = 36
 present   = TSFT+Flags+Rate+Channel+dBm_AntSignal+b14+b29+Ext
 notdecoded= ' \x08\x00\x00\x00\x00\x00\x00\x1f\x02\xed\x07\x05 
 .......

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.