Tool Documentation:
aircrack-ng Usage Examples
WPA Wordlist Mode
Specify the wordlist to use (-w password.lst
) and the path to the capture file (wpa.cap
) containing at least one 4-way handshake.
root@kali:~# aircrack-ng -w password.lst wpa.cap
Aircrack-ng 1.5.2
[00:00:00] 232/233 keys tested (1992.58 k/s)
Time left: 0 seconds 99.57%
KEY FOUND! [ biscotte ]
Master Key : CD D7 9A 5A CF B0 70 C7 E9 D1 02 3B 87 02 85 D6
39 E4 30 B3 2F 31 AA 37 AC 82 5A 55 B5 55 24 EE
Transient Key : 33 55 0B FC 4F 24 84 F4 9A 38 B3 D0 89 83 D2 49
73 F9 DE 89 67 A6 6D 2B 8E 46 2C 07 47 6A CE 08
AD FB 65 D6 13 A9 9F 2C 65 E4 A6 08 F2 5A 67 97
D9 6F 76 5B 8C D3 DF 13 2F BC DA 6A 6E D9 62 CD
EAPOL HMAC : 28 A8 C8 95 B7 17 E5 72 27 B6 A7 EE E3 E5 34 45
Basic WEP Cracking
To have aircrack-ng conduct a WEP key attack on a capture file, pass it the filename, either in .ivs or .cap/.pcap format:
root@kali:~# aircrack-ng all-ivs.ivs
Aircrack-ng 1.4
[00:00:00] Tested 1514 keys (got 30566 IVs)
KB depth byte(vote)
0 0/ 9 1F(39680) 4E(38400) 14(37376) 5C(37376) 9D(37376)
1 7/ 9 64(36608) 3E(36352) 34(36096) 46(36096) BA(36096)
2 0/ 1 1F(46592) 6E(38400) 81(37376) 79(36864) AD(36864)
3 0/ 3 1F(40960) 15(38656) 7B(38400) BB(37888) 5C(37632)
4 0/ 7 1F(39168) 23(38144) 97(37120) 59(36608) 13(36352)
KEY FOUND! [ 1F:1F:1F:1F:1F ]
Decrypted correctly: 100%
airgraph-ng Usage Examples
CAPR graph
Specify the input file to use (-i dump-01.csv
), the output file to generate (-o capr.png
) and the graph type (-g CAPR
):
root@kali:~# airgraph-ng -i dump-01.csv -o capr.png -g CAPR
**** WARNING Images can be large, up to 12 Feet by 12 Feet****
Creating your Graph using, dump-01.csv and writing to, capr.png
Depending on your system this can take a bit. Please standby......
CPG graph
Specify the input file to use (-i dump-01.csv
), the output file to generate (-o cpg.png
) and the graph type (-g CAG
):
root@kali:~# airgraph-ng -i dump-01.csv -o cpg.png -g CPG
**** WARNING Images can be large, up to 12 Feet by 12 Feet****
Creating your Graph using, dump-01.csv and writing to, cpg.png
Depending on your system this can take a bit. Please standby......
wpaclean Usage Example
Parse the provided capture files (wpa-psk-linksys.cap wpa.cap
) and save any 4-way handshakes to a new file (/root/handshakes.cap
):
root@kali:/usr/share/doc/aircrack-ng/examples# wpaclean /root/handshakes.cap wpa-psk-linksys.cap wpa.cap
Pwning wpa-psk-linksys.cap (1/2 50%)
Net 00:0b:86:c2:a4:85 linksys
Pwning wpa.cap (2/2 100%)
Net 00:0d:93:eb:b0:8c test
Done
wesside-ng Usage Example
Use the specified monitor mode interface (-i wlan0mon
) and target a single BSSID (-v de:ad:be:ef:ca:fe
):
root@kali:~# wesside-ng -i wlan0mon -v de:ad:be:ef:ca:fe
[18:31:52] Using mac 3C:46:D8:4E:EF:AA
[18:31:52] Looking for a victim...
[18:32:13] Chan 04 -
makeivs-ng Usage Example
Specify a BSSID (-b de:ad:be:ef:ca:fe
), WEP key (-k 123456789ABCDEF123456789AB
), and output filename (-w makeivs.ivs
):
root@kali:~# makeivs-ng -b de:ad:be:ef:ca:fe -k 123456789ABCDEF123456789AB -w makeivs.ivs
Creating 100000 IVs with 16 bytes of keystream each.
Estimated filesize: 2.29 MB
Using fake BSSID DE:AD:BE:EF:CA:FE
Done.
root@kali:~# aircrack-ng makeivs.ivs
Opening makeivs.ivs
Read 100001 packets.
# BSSID ESSID Encryption
1 DE:AD:BE:EF:CA:FE WEP (100000 IVs)
Choosing first network as target.
Opening makeivs.ivs
Attack will be restarted every 5000 captured ivs.
Starting PTW attack with 100000 ivs.
Aircrack-ng 1.2 rc4
[00:00:00] Tested 621 keys (got 100000 IVs)
KB depth byte(vote)
0 1/ 2 76(113152) 1E(111104) 48(109824) 1C(109568) A6(109568)
1 1/ 3 F5(112640) 06(111616) 33(111616) F4(111616) 05(111104)
2 0/ 2 31(137216) F9(113664) 76(113152) DC(110336) B9(109568)
3 10/ 3 E1(108800) 0A(108544) 34(108032) 3E(108032) 48(108032)
4 9/ 4 7D(109312) BA(109056) 5E(108800) D6(108800) 11(108288)
KEY FOUND! [ 12:34:56:78:9A:BC:DE:F1:23:45:67:89:AB ]
Decrypted correctly: 100%
ivstools Usage Examples
Strip out the initialization vectors of the provided .pcap capture and save them to a new file:
root@kali:~# ivstools --convert wep_64_ptw.cap out.ivs
Opening wep_64_ptw.cap
Creating out.ivs
Read 65282 packets.
Written 30566 IVs.
Merge all .ivs files into one file.
root@kali:~# ivstools --merge *.ivs /root/all-ivs.ivs
Creating /root/all-ivs.ivs
Opening out.ivs
916996 bytes written
Opening out2.ivs
1374748 bytes written
easside-ng Usage Example
First, run buddy-ng, then launch the Easside-ng attack, specifying as many of the options as you can.
root@kali:~# buddy-ng
Waiting for connexion
root@kali:~# easside-ng -v de:ad:be:ef:ca:fe -m 3c:46:d8:4e:ef:aa -s 127.0.0.1 -f wlan0mon -c 6
Setting tap MTU
Sorting out wifi MAC
besside-ng
Attack WPA only (-W
), display verbose output (-v
) and use monitor mode interface wlan0mon
.
root@kali:~# besside-ng -W -v wlan0mon
[18:39:34] mac 3c:46:d8:4e:ef:aa
[18:39:34] Let's ride
[18:39:34] Appending to wpa.cap
[18:39:34] Appending to wep.cap
[18:39:34] Logging to besside.log
[18:39:35] Found AP 44:3a:cb:38:51:42 [watwutwot] chan 1 crypto WPA dbm -49
[18:39:35] Found AP 4c:8b:30:83:ed:91 [TELUS3079-2.4G] chan 1 crypto WPA dbm -71
[18:39:35] Found AP 1c:87:2c:d3:34:18 [Kuroki] chan 3 crypto WPA dbm -89
[18:39:37] Found AP 4c:8b:30:24:71:75 [SAMUEL9] chan 8 crypto WPA dbm -73
[18:39:37] Found AP 0c:51:01:e6:01:c4 [fbi-van-24] chan 11 crypto WPA dbm -46
[18:39:37] Found AP 70:f1:96:8e:5c:02 [TELUS0455-2.4G] chan 11 crypto WPA dbm -78
[18:39:38] Found client for network [Kuroki] 90:06:28:cb:0f:f3
[18:39:41] Found AP f0:f2:49:3c:ec:a8 [fbi-van-24] chan 1 crypto WPA dbm -49
[18:39:42] Found AP bc:4d:fb:2c:6d:88 [SHAW-2C6D80] chan 6 crypto WPA dbm -77
[18:39:42] Found client for network [SHAW-2C6D80] 64:5a:04:98:e1:62
[18:39:43] Found AP 10:78:5b:e9:a4:e2 [TELUS2151] chan 11 crypto WPA dbm -49
[18:39:43] Found client for network [fbi-van-24] 60:6b:bd:5a:b6:6c
airtun-ng Usage Examples
wIDS
Specify the BSSID of the access point you wish to monitor (-a DE:AD:BE:EF:CA:FE
) and its WEP key (-w 1234567890
).
root@kali:~# airtun-ng -a DE:AD:BE:EF:CA:FE -w 1234567890 wlan0mon
created tap interface at0
WEP encryption specified. Sending and receiving frames through wlan0mon.
FromDS bit set in all frames.
airserv-ng Usage Example
Start a server instance on a specific port (-p 4444
) using the wlan0mon
interface on channel 6 (-c 6
).
root@kali:~# airserv-ng -p 4444 -d wlan0mon -c 6
Opening card wlan0mon
Setting chan 6
Opening sock port 4444
Serving wlan0mon chan 6 on port 4444
airolib-ng Usage Examples
Specify the name of the database to use (airolib-db
) and import a file containing the ESSIDs of the network(s) you are targeting (–import essid /root/essid.txt
). If the database does not exist, it will be created.
root@kali:~# airolib-ng airolib-db --import essid /root/essid.txt
Database <airolib-db> does not already exist, creating it...
Database <airolib-db> successfully created
Reading file...
Writing...
Done.
Import any wordlists you wish to use for PMK computation.
root@kali:~# airolib-ng airolib-db --import passwd /usr/share/doc/aircrack-ng/examples/password.lst
Reading file...
Writing... read, 1814 invalid lines ignored.
Done
Use the –batch
to compute all PMKs.
root@kali:~# airolib-ng airolib-db --batch
Computed 233 PMK in 0 seconds (233 PMK/s, 0 in buffer). All ESSID processed.
To use the airolib-ng database with aircrack-ng, use the -r
option and specify the database name.
root@kali:~# aircrack-ng -r airolib-db /root/wpa.cap
Opening /root/wpa.cap
Read 13 packets.
# BSSID ESSID Encryption
1 00:0D:93:EB:B0:8C test WPA (1 handshake)
Choosing first network as target.
Opening /root/wpa.cap
Reading packets, please wait...
Aircrack-ng 1.4
[00:00:00] 230/0 keys tested (106728.53 k/s)
Time left: 0 seconds inf%
KEY FOUND! [ biscotte ]
Master Key : CD D7 9A 5A CF B0 70 C7 E9 D1 02 3B 87 02 85 D6
39 E4 30 B3 2F 31 AA 37 AC 82 5A 55 B5 55 24 EE
Transient Key : 33 55 0B FC 4F 24 84 F4 9A 38 B3 D0 89 83 D2 49
73 F9 DE 89 67 A6 6D 2B 8E 46 2C 07 47 6A CE 08
AD FB 65 D6 13 A9 9F 2C 65 E4 A6 08 F2 5A 67 97
D9 6F 76 5B 8C D3 DF 13 2F BC DA 6A 6E D9 62 CD
EAPOL HMAC : 28 A8 C8 95 B7 17 E5 72 27 B6 A7 EE E3 E5 34 45
Quitting aircrack-ng...
airodump-ng Usage Examples
Monitor all wireless networks, frequency hopping between all wireless channels.
root@kali:~# airodump-ng wlan0mon
CH 8 ][ Elapsed: 4 s ][ 2018-11-22 13:44
BSSID PWR Beacons #Data, #/s CH MB ENC CIPHER AUTH ESSID
54:A0:50:DA:7B:98 -76 1 0 0 1 54e WPA2 CCMP PSK RTINC-24
FC:15:B4:CF:0A:55 -70 2 0 0 6 54e. WPA2 CCMP PSK HP-Print-55-ENVY 4500 series
A8:4E:3F:73:DD:88 -67 3 0 0 6 720 WPA2 CCMP PSK WAT-73DD80
4C:8B:30:83:ED:91 -71 2 0 0 1 54e WPA2 CCMP PSK TELL-US-2.4G
4C:8B:30:D7:09:41 -76 2 0 0 1 54e WPA2 CCMP PSK SAMUELL-2.4G
FA:8F:CA:89:90:39 -82 2 0 0 1 135 OPN Raymond's TV.e102
AC:20:2E:CD:F4:88 -85 0 0 0 6 54e. WPA2 CCMP PSK BELL-CDF480
10:78:5B:2A:A1:21 -80 2 0 0 6 54e WPA2 CCMP PSK COGECO-2.4G
BSSID STATION PWR Rate Lost Frames Probe
(not associated) 8C:85:90:0C:C5:D0 -44 0 - 1 1 5
(not associated) A0:63:91:43:C2:D5 -70 0 - 1 0 1 TT-D59979
(not associated) 14:91:82:04:D9:74 -43 0 - 1 0 1 1
Sniff on channel 6 (-c 6) via monitor mode interface wlan0mon and save the capture to a file (-w /root/chan6).
root@kali:~# airodump-ng -c 6 -w /root/chan6 wlan0mon
CH 6 ][ Elapsed: 8 s ][ 2017-11-12 13:49
BSSID PWR RXQ Beacons #Data, #/s CH MB ENC CIPHER AUTH ESSID
BC:4D:FB:2C:6D:88 -68 28 9 3 0 6 54e. WPA2 CCMP PSK BELL-CDF4800
A8:4E:3F:73:DD:88 -74 33 19 0 0 6 54e. WPA2 CCMP PSK COGECO-2.4G
FC:15:B4:CF:0A:55 -77 61 31 0 0 6 54e. WPA2 CCMP PSK HP-Print-55-ENVY 4500 series
Filter for access points by a specific manufacturer, specifying the OUI and mask (-d FC:15:B4:00:00:00 -m FF:FF:FF:00:00:00).
root@kali:~# airodump-ng -d FC:15:B4:00:00:00 -m FF:FF:FF:00:00:00 wlan0mon
CH 14 ][ Elapsed: 18 s ][ 2018-11-22 13:53
BSSID PWR Beacons #Data, #/s CH MB ENC CIPHER AUTH ESSID
FC:15:B4:CF:0A:55 -76 9 0 0 6 54e. WPA2 CCMP PSK HP-Print-55-ENVY 4500 series
BSSID STATION PWR Rate Lost Frames Probe
airodump-ng-oui-update Usage Example
airodump-ng-oui-update does not have any options. Run the command and wait for it to complete.
root@kali:~# airodump-ng-oui-update
/usr/sbin/update-ieee-data
Updating /var/lib/ieee-data//oui.txt
Checking permissions on /var/lib/ieee-data//oui.txt
Downloading https://standards.ieee.org/develop/regauth/oui/oui.txt to /var/lib/ieee-data//oui.txt
Checking header
Temporary location /tmp/ieee-data_y1vJ3E to be moved to /var/lib/ieee-data//oui.txt
/var/lib/ieee-data//oui.txt updated.
Updating /var/lib/ieee-data//mam.txt
Checking permissions on /var/lib/ieee-data//mam.txt
Downloading https://standards.ieee.org/develop/regauth/oui28/mam.txt to /var/lib/ieee-data//mam.txt
Checking header
Temporary location /tmp/ieee-data_y1vJ3E to be moved to /var/lib/ieee-data//mam.txt
/var/lib/ieee-data//mam.txt updated.
Updating /var/lib/ieee-data//oui36.txt
Checking permissions on /var/lib/ieee-data//oui36.txt
Downloading https://standards.ieee.org/develop/regauth/oui36/oui36.txt to /var/lib/ieee-data//oui36.txt
Checking header
Temporary location /tmp/ieee-data_y1vJ3E to be moved to /var/lib/ieee-data//oui36.txt
/var/lib/ieee-data//oui36.txt updated.
Updating /var/lib/ieee-data//iab.txt
Checking permissions on /var/lib/ieee-data//iab.txt
Downloading https://standards.ieee.org/develop/regauth/iab/iab.txt to /var/lib/ieee-data//iab.txt
Checking header
Temporary location /tmp/ieee-data_y1vJ3E to be moved to /var/lib/ieee-data//iab.txt
/var/lib/ieee-data//iab.txt updated.
Updating /var/lib/ieee-data//oui.csv
Checking permissions on /var/lib/ieee-data//oui.csv
Downloading https://standards.ieee.org/develop/regauth/oui/oui.csv to /var/lib/ieee-data//oui.csv
Checking header
Temporary location /tmp/ieee-data_y1vJ3E to be moved to /var/lib/ieee-data//oui.csv
/var/lib/ieee-data//oui.csv updated.
Updating /var/lib/ieee-data//mam.csv
Checking permissions on /var/lib/ieee-data//mam.csv
Downloading https://standards.ieee.org/develop/regauth/oui28/mam.csv to /var/lib/ieee-data//mam.csv
Checking header
Temporary location /tmp/ieee-data_y1vJ3E to be moved to /var/lib/ieee-data//mam.csv
/var/lib/ieee-data//mam.csv updated.
Updating /var/lib/ieee-data//oui36.csv
Checking permissions on /var/lib/ieee-data//oui36.csv
Downloading https://standards.ieee.org/develop/regauth/oui36/oui36.csv to /var/lib/ieee-data//oui36.csv
Checking header
Temporary location /tmp/ieee-data_y1vJ3E to be moved to /var/lib/ieee-data//oui36.csv
/var/lib/ieee-data//oui36.csv updated.
Updating /var/lib/ieee-data//iab.csv
Checking permissions on /var/lib/ieee-data//iab.csv
Downloading https://standards.ieee.org/develop/regauth/iab/iab.csv to /var/lib/ieee-data//iab.csv
Checking header
Temporary location /tmp/ieee-data_y1vJ3E to be moved to /var/lib/ieee-data//iab.csv
/var/lib/ieee-data//iab.csv updated.
Running parsers from /var/lib/ieee-data//update.d
airmon-ng Usage Examples
Entering the airmon-ng command without parameters will show the interfaces status.
root@kali:~# airmon-ng
PHY Interface Driver Chipset
phy0 wlan0 ath9k_htc Atheros Communications, Inc. AR9271 802.11n
A number of processes can interfere with Airmon-ng. Using the check option will display any processes that might be troublesome and the check kill option will kill them for you.
root@kali:~# airmon-ng check
Found 3 processes that could cause trouble.
If airodump-ng, aireplay-ng or airtun-ng stops working after
a short period of time, you may want to run 'airmon-ng check kill'
PID Name
465 NetworkManager
515 dhclient
1321 wpa_supplicant
root@kali:~# airmon-ng check kill
Killing these processes:
PID Name
515 dhclient
1321 wpa_supplicant
Enable monitor mode (start) on the given wireless interface (wlan0
), fixed on channel 6
. A new interface will be created (wlan0mon
in our case), which is the interface name you will need to use in other applications.
root@kali:~# airmon-ng start wlan0 6
PHY Interface Driver Chipset
phy0 wlan0 ath9k_htc Atheros Communications, Inc. AR9271 802.11n
(mac80211 monitor mode vif enabled for [phy0]wlan0 on [phy0]wlan0mon)
(mac80211 station mode vif disabled for [phy0]wlan0)
The stop option will destroy the monitor mode interface and place the wireless interface back into managed mode.
root@kali:~# airmon-ng stop wlan0mon
PHY Interface Driver Chipset
phy0 wlan0mon ath9k_htc Atheros Communications, Inc. AR9271 802.11n
(mac80211 station mode vif enabled on [phy0]wlan0)
(mac80211 monitor mode vif disabled for [phy0]wlan0mon)
airgraph-ng Usage Examples
CAPR graph
Specify the input file to use (-i dump-01.csv
), the output file to generate (-o capr.png
) and the graph type (-g CAPR
).
root@kali:~# airgraph-ng -i dump-01.csv -o capr.png -g CAPR
**** WARNING Images can be large, up to 12 Feet by 12 Feet****
Creating your Graph using, dump-01.csv and writing to, capr.png
Depending on your system this can take a bit. Please standby......
CPG graph
Specify the input file to use (-i dump-01.csv
), the output file to generate (-o cpg.png
) and the graph type (-g CAG
).
root@kali:~# airgraph-ng -i dump-01.csv -o cpg.png -g CPG
**** WARNING Images can be large, up to 12 Feet by 12 Feet****
Creating your Graph using, dump-01.csv and writing to, cpg.png
Depending on your system this can take a bit. Please standby......
aireplay-ng Usage Examples
Injection Test
Run the injection test (-9
) via the monitor mode interface wlan0mon
.
root@kali:~# aireplay-ng -9 wlan0mon
22:55:44 Trying broadcast probe requests...
22:55:44 Injection is working!
22:55:46 Found 4 APs
22:55:46 Trying directed probe requests...
22:55:46 24:FB:95:FD:3D:7F - channel: 6 - 'America'
22:55:52 30/30: 100%
22:55:52 34:6D:A0:CD:45:10 - channel: 6 - 'ATT2b8i4UD'
22:55:58 27/30: 90%
22:55:58 50:64:3D:2A:F7:A0 - channel: 6 - 'FBI surveillance van'
22:56:04 12/30: 40%
22:56:04 16:6E:EF:29:67:46 - channel: 6 - 'dd-wrt_vap'
22:56:10 1/30: 3%
Deauthentication Attack
Run the deauthentication attack (-0
), sending 5
packets to the wireless access point (-a 8C:7F:3B:7E:81:B6
) to deauthenticate a wireless client (-c 00:08:22:B9:41:A1
) via the monitor mode interface wlan0mon
.
root@kali:~# aireplay-ng -0 5 -a 8C:7F:3B:7E:81:B6 -c 00:08:22:B9:41:A1 wlan0mon
12:41:56 Waiting for beacon frame (BSSID: 8C:7F:3B:7E:81:B6) on channel 6
12:41:57 Sending 64 directed DeAuth. STMAC: [00:08:22:B9:41:A1] [ 0| 0 ACKs]
12:41:58 Sending 64 directed DeAuth. STMAC: [00:08:22:B9:41:A1] [ 0| 0 ACKs]
12:41:58 Sending 64 directed DeAuth. STMAC: [00:08:22:B9:41:A1] [ 0| 0 ACKs]
12:41:59 Sending 64 directed DeAuth. STMAC: [00:08:22:B9:41:A1] [ 0| 0 ACKs]
12:42:00 Sending 64 directed DeAuth. STMAC: [00:08:22:B9:41:A1] [ 0| 0 ACKs]
Fake Authentication
Run the fake authentication attack and re-authenticate every 6000 seconds (-1 6000
) against the access point (-a F0:F2:49:82:DF:3B
) with the given ESSID (-e FBI-Van-24
), specifying our mac address (-h 3c:46:d8:4e:ef:aa
), using monitor mode interface wlan0mon
.
root@kali:~# aireplay-ng -1 6000 -e FBI-Van-24 -a F0:F2:49:82:DF:3B -h 3c:46:d8:4e:ef:aa wlan0mon
12:49:59 Waiting for beacon frame (BSSID: F0:F2:49:82:DF:3B) on channel 6
12:50:06 Sending Authentication Request (Open System)
airbase-ng Usage Examples
Hirte Attack – Access Point Mode
The Hirte attack attempts to retrieve a WEP key via a client. This example creates an access point on channel 6 (-c 6
) with the specified ESSID (-e TotallyNotATrap
) and uses the cfrag WEP attack (-N
), setting the WEP flag in the beacons (-W 1
).
root@kali:~# root@kali:~# airbase-ng -c 6 -e TotallyNotATrap -N -W 1 wlan0mon
15:51:11 Created tap interface at0
15:51:11 Trying to set MTU on at0 to 1500
15:51:11 Trying to set MTU on wlan0mon to 1800
15:51:11 Access Point with BSSID 3C:46:D8:4E:EF:AA started.
Caffe Latte Attack – Access Point Mode
As with the Hirte attack, the Caffe Latte Attack attempts to retrieve a WEP key via a client. This example creates an access point on channel 6 (-c 6
) with the specified ESSID (-e AlsoNotATrap
) and uses the Caffe Latte WEP attack (-L
), setting the WEP flag in the beacons (-W 1
).
root@kali:~# airbase-ng -c 6 -e AlsoNotATrap -L -W 1 wlan0mon
15:56:05 Created tap interface at0
15:56:05 Trying to set MTU on at0 to 1500
15:56:05 Access Point with BSSID 3C:46:D8:4E:EF:AA started.
airdecap-ng
With a given ESSID (-e test
) and password (-p biscotte
), decrypt the specified WPA capture (-r /usr/share/doc/aircrack-ng/examples/wpa.cap
).
root@kali:~# tcpdump -r wpa.cap
reading from file wpa.cap, link-type PRISM_HEADER (802.11 plus Prism header)
03:01:06.609737 Beacon (test) [1.0* 2.0* 5.5* 11.0* Mbit] ESS CH: 7, PRIVACY[|802.11]
03:01:06.678714 EAPOL key (3) v1, len 95
03:01:06.678928 Acknowledgment RA:00:0d:93:eb:b0:8c (oui Unknown)
03:01:06.681525 EAPOL key (3) v1, len 119
03:01:06.681732 Acknowledgment RA:00:09:5b:91:53:5d (oui Unknown)
03:01:06.684370 EAPOL key (3) v1, len 119
03:01:06.684584 Acknowledgment RA:00:0d:93:eb:b0:8c (oui Unknown)
03:01:06.685502 EAPOL key (3) v1, len 95
03:01:06.685708 Acknowledgment RA:00:09:5b:91:53:5d (oui Unknown)
03:01:06.686775 Data IV:12000 Pad 20 KeyID 0
03:01:06.686984 Acknowledgment RA:00:0d:93:eb:b0:8c (oui Unknown)
03:01:06.688139 Data IV:12000 Pad 20 KeyID 0
03:01:06.688344 Acknowledgment RA:00:09:5b:91:53:5d (oui Unknown)
root@kali:~# airdecap-ng -e test -p biscotte wpa.cap
Total number of packets read 13
Total number of WEP data packets 0
Total number of WPA data packets 2
Number of plaintext data packets 0
Number of decrypted WEP packets 0
Number of corrupted WEP packets 0
Number of decrypted WPA packets 2
root@kali:~# tcpdump -r wpa-dec.cap
reading from file wpa-dec.cap, link-type EN10MB (Ethernet)
03:01:06.686775 EAPOL key (3) v1, len 127
03:01:06.688139 EAPOL key (3) v1, len 95
Packages and Binaries:
aircrack-ng
aircrack-ng is an 802.11a/b/g WEP/WPA cracking program that can recover a 40-bit, 104-bit, 256-bit or 512-bit WEP key once enough encrypted packets have been gathered. Also it can attack WPA1/2 networks with some advanced methods or simply by brute force.
It implements the standard FMS attack along with some optimizations, thus making the attack much faster compared to other WEP cracking tools. It can also fully use a multiprocessor system to its full power in order to speed up the cracking process.
aircrack-ng is a fork of aircrack, as that project has been stopped by the upstream maintainer.
Installed size: 2.34 MB
How to install: sudo apt install aircrack-ng
Dependencies:
- ethtool
- hwloc
- iw
- libc6
- libgcc-s1
- libgcrypt20
- libhwloc15
- libnl-3-200
- libnl-genl-3-200
- libpcap0.8t64
- libpcre3
- libsqlite3-0
- libstdc++6
- python3
- rfkill
- usbutils
- wireless-tools
- zlib1g
airbase-ng
Multi-purpose tool aimed at attacking clients as opposed to the Access Point (AP) itself
root@kali:~# airbase-ng --help
Airbase-ng 1.7 - (C) 2008-2022 Thomas d'Otreppe
Original work: Martin Beck
https://www.aircrack-ng.org
usage: airbase-ng <options> <replay interface>
Options:
-a bssid : set Access Point MAC address
-i iface : capture packets from this interface
-w WEP key : use this WEP key to en-/decrypt packets
-h MAC : source mac for MITM mode
-f disallow : disallow specified client MACs (default: allow)
-W 0|1 : [don't] set WEP flag in beacons 0|1 (default: auto)
-q : quiet (do not print statistics)
-v : verbose (print more messages)
-A : Ad-Hoc Mode (allows other clients to peer)
-Y in|out|both : external packet processing
-c channel : sets the channel the AP is running on
-X : hidden ESSID
-s : force shared key authentication (default: auto)
-S : set shared key challenge length (default: 128)
-L : Caffe-Latte WEP attack (use if driver can't send frags)
-N : cfrag WEP attack (recommended)
-x nbpps : number of packets per second (default: 100)
-y : disables responses to broadcast probes
-0 : set all WPA,WEP,open tags. can't be used with -z & -Z
-z type : sets WPA1 tags. 1=WEP40 2=TKIP 3=WRAP 4=CCMP 5=WEP104
-Z type : same as -z, but for WPA2
-V type : fake EAPOL 1=MD5 2=SHA1 3=auto
-F prefix : write all sent and received frames into pcap file
-P : respond to all probes, even when specifying ESSIDs
-I interval : sets the beacon interval value in ms
-C seconds : enables beaconing of probed ESSID values (requires -P)
-n hex : User specified ANonce when doing the 4-way handshake
Filter options:
--bssid MAC : BSSID to filter/use
--bssids file : read a list of BSSIDs out of that file
--client MAC : MAC of client to filter
--clients file : read a list of MACs out of that file
--essid ESSID : specify a single ESSID (default: default)
--essids file : read a list of ESSIDs out of that file
--help : Displays this usage screen
aircrack-ng
A 802.11 WEP / WPA-PSK key cracker
root@kali:~# aircrack-ng --help
Aircrack-ng 1.7 - (C) 2006-2022 Thomas d'Otreppe
https://www.aircrack-ng.org
usage: aircrack-ng [options] <input file(s)>
Common options:
-a <amode> : force attack mode (1/WEP, 2/WPA-PSK)
-e <essid> : target selection: network identifier
-b <bssid> : target selection: access point's MAC
-p <nbcpu> : # of CPU to use (default: all CPUs)
-q : enable quiet mode (no status output)
-C <macs> : merge the given APs to a virtual one
-l <file> : write key to file. Overwrites file.
Static WEP cracking options:
-c : search alpha-numeric characters only
-t : search binary coded decimal chr only
-h : search the numeric key for Fritz!BOX
-d <mask> : use masking of the key (A1:XX:CF:YY)
-m <maddr> : MAC address to filter usable packets
-n <nbits> : WEP key length : 64/128/152/256/512
-i <index> : WEP key index (1 to 4), default: any
-f <fudge> : bruteforce fudge factor, default: 2
-k <korek> : disable one attack method (1 to 17)
-x or -x0 : disable bruteforce for last keybytes
-x1 : last keybyte bruteforcing (default)
-x2 : enable last 2 keybytes bruteforcing
-X : disable bruteforce multithreading
-y : experimental single bruteforce mode
-K : use only old KoreK attacks (pre-PTW)
-s : show the key in ASCII while cracking
-M <num> : specify maximum number of IVs to use
-D : WEP decloak, skips broken keystreams
-P <num> : PTW debug: 1: disable Klein, 2: PTW
-1 : run only 1 try to crack key with PTW
-V : run in visual inspection mode
WEP and WPA-PSK cracking options:
-w <words> : path to wordlist(s) filename(s)
-N <file> : path to new session filename
-R <file> : path to existing session filename
WPA-PSK options:
-E <file> : create EWSA Project file v3
-I <str> : PMKID string (hashcat -m 16800)
-j <file> : create Hashcat v3.6+ file (HCCAPX)
-J <file> : create Hashcat file (HCCAP)
-S : WPA cracking speed test
-Z <sec> : WPA cracking speed test length of
execution.
-r <DB> : path to airolib-ng database
(Cannot be used with -w)
SIMD selection:
--simd-list : Show a list of the available
SIMD architectures, for this
machine.
--simd=<option> : Use specific SIMD architecture.
<option> may be one of the following, depending on
your platform:
generic
avx512
avx2
avx
sse2
altivec
power8
asimd
neon
Other options:
-u : Displays # of CPUs & SIMD support
--help : Displays this usage screen
airdecap-ng
Decrypt a WEP/WPA crypted pcap file
root@kali:~# airdecap-ng --help
Airdecap-ng 1.7 - (C) 2006-2022 Thomas d'Otreppe
https://www.aircrack-ng.org
usage: airdecap-ng [options] <pcap file>
Common options:
-l : don't remove the 802.11 header
-b <bssid> : access point MAC address filter
-e <essid> : target network SSID
-o <fname> : output file for decrypted packets (default <src>-dec)
WEP specific option:
-w <key> : target network WEP key in hex
-c <fname> : output file for corrupted WEP packets (default <src>-bad)
WPA specific options:
-p <pass> : target network WPA passphrase
-k <pmk> : WPA Pairwise Master Key in hex
--help : Displays this usage screen
If your capture contains any WDS packet, you must specify the -b
option (otherwise only packets destined to the AP will be decrypted)
airdecloak-ng
Removes wep cloaked framed from a pcap file.
root@kali:~# airdecloak-ng -h
Airdecloak-ng 1.7 - (C) 2008-2022 Thomas d'Otreppe
https://www.aircrack-ng.org
usage: airdecloak-ng [options]
options:
Mandatory:
-i <file> : Input capture file
--ssid <ESSID> : ESSID of the network to filter
or
--bssid <BSSID> : BSSID of the network to filter
Optional:
-o <file> : Output packets (valid) file (default: <src>-filtered.pcap)
-c <file> : Output packets (cloaked) file (default: <src>-cloaked.pcap)
-u <file> : Output packets (unknown/ignored) file (default: invalid_status.pcap)
--filters <filters> : Apply filters (separated by a comma). Filters:
signal: Try to filter based on signal.
duplicate_sn: Remove all duplicate sequence numbers
for both the AP and the client.
duplicate_sn_ap: Remove duplicate sequence number for
the AP only.
duplicate_sn_client: Remove duplicate sequence number for the
client only.
consecutive_sn: Filter based on the fact that IV should
be consecutive (only for AP).
duplicate_iv: Remove all duplicate IV.
signal_dup_consec_sn: Use signal (if available), duplicate and
consecutive sequence number (filtering is
much more precise than using all these
filters one by one).
--null-packets : Assume that null packets can be cloaked.
--disable-base_filter : Do not apply base filter.
--drop-frag : Drop fragmented packets
--help : Displays this usage screen
aireplay-ng
Inject packets into a wireless network to generate traffic
root@kali:~# aireplay-ng --help
Aireplay-ng 1.7 - (C) 2006-2022 Thomas d'Otreppe
https://www.aircrack-ng.org
usage: aireplay-ng <options> <replay interface>
Filter options:
-b bssid : MAC address, Access Point
-d dmac : MAC address, Destination
-s smac : MAC address, Source
-m len : minimum packet length
-n len : maximum packet length
-u type : frame control, type field
-v subt : frame control, subtype field
-t tods : frame control, To DS bit
-f fromds : frame control, From DS bit
-w iswep : frame control, WEP bit
-D : disable AP detection
Replay options:
-x nbpps : number of packets per second
-p fctrl : set frame control word (hex)
-a bssid : set Access Point MAC address
-c dmac : set Destination MAC address
-h smac : set Source MAC address
-g value : change ring buffer size (default: 8)
-F : choose first matching packet
Fakeauth attack options:
-e essid : set target AP SSID
-o npckts : number of packets per burst (0=auto, default: 1)
-q sec : seconds between keep-alives
-Q : send reassociation requests
-y prga : keystream for shared key auth
-T n : exit after retry fake auth request n time
Arp Replay attack options:
-j : inject FromDS packets
Fragmentation attack options:
-k IP : set destination IP in fragments
-l IP : set source IP in fragments
Test attack options:
-B : activates the bitrate test
Source options:
-i iface : capture packets from this interface
-r file : extract packets from this pcap file
Miscellaneous options:
-R : disable /dev/rtc usage
--ignore-negative-one : if the interface's channel can't be determined,
ignore the mismatch, needed for unpatched cfg80211
--deauth-rc rc : Deauthentication reason code [0-254] (Default: 7)
Attack modes (numbers can still be used):
--deauth count : deauthenticate 1 or all stations (-0)
--fakeauth delay : fake authentication with AP (-1)
--interactive : interactive frame selection (-2)
--arpreplay : standard ARP-request replay (-3)
--chopchop : decrypt/chopchop WEP packet (-4)
--fragment : generates valid keystream (-5)
--caffe-latte : query a client for new IVs (-6)
--cfrag : fragments against a client (-7)
--migmode : attacks WPA migration mode (-8)
--test : tests injection and quality (-9)
--help : Displays this usage screen
airmon-ng
POSIX sh script designed to turn wireless cards into monitor mode.
root@kali:~# airmon-ng -h
usage: airmon-ng <start|stop|check> <interface> [channel or frequency]
airodump-ng
A wireless packet capture tool for aircrack-ng
root@kali:~# airodump-ng --help
Airodump-ng 1.7 - (C) 2006-2022 Thomas d'Otreppe
https://www.aircrack-ng.org
usage: airodump-ng <options> <interface>[,<interface>,...]
Options:
--ivs : Save only captured IVs
--gpsd : Use GPSd
--write <prefix> : Dump file prefix
-w : same as --write
--beacons : Record all beacons in dump file
--update <secs> : Display update delay in seconds
--showack : Prints ack/cts/rts statistics
-h : Hides known stations for --showack
-f <msecs> : Time in ms between hopping channels
--berlin <secs> : Time before removing the AP/client
from the screen when no more packets
are received (Default: 120 seconds)
-r <file> : Read packets from that file
-T : While reading packets from a file,
simulate the arrival rate of them
as if they were "live".
-x <msecs> : Active Scanning Simulation
--manufacturer : Display manufacturer from IEEE OUI list
--uptime : Display AP Uptime from Beacon Timestamp
--wps : Display WPS information (if any)
--output-format
<formats> : Output format. Possible values:
pcap, ivs, csv, gps, kismet, netxml, logcsv
--ignore-negative-one : Removes the message that says
fixed channel <interface>: -1
--write-interval
<seconds> : Output file(s) write interval in seconds
--background <enable> : Override background detection.
-n <int> : Minimum AP packets recv'd before
for displaying it
Filter options:
--encrypt <suite> : Filter APs by cipher suite
--netmask <netmask> : Filter APs by mask
--bssid <bssid> : Filter APs by BSSID
--essid <essid> : Filter APs by ESSID
--essid-regex <regex> : Filter APs by ESSID using a regular
expression
-a : Filter unassociated clients
By default, airodump-ng hops on 2.4GHz channels.
You can make it capture on other/specific channel(s) by using:
--ht20 : Set channel to HT20 (802.11n)
--ht40- : Set channel to HT40- (802.11n)
--ht40+ : Set channel to HT40+ (802.11n)
--channel <channels> : Capture on specific channels
--band <abg> : Band on which airodump-ng should hop
-C <frequencies> : Uses these frequencies in MHz to hop
--cswitch <method> : Set channel switching method
0 : FIFO (default)
1 : Round Robin
2 : Hop on last
-s : same as --cswitch
--help : Displays this usage screen
airodump-ng-oui-update
IEEE oui list updater for airodump-ng
root@kali:~# man airodump-ng-oui-update
AIRODUMP-NG-OUI-UPDATE(8) System Manager's Manual AIRODUMP-NG-OUI-UPDATE(8)
NAME
airodump-ng-oui-updater - IEEE oui list updater for airodump-ng
SYNOPSIS
airodump-ng-oui-updater
DESCRIPTION
airodump-ng-oui-updater downloads and parses IEEE OUI list.
AUTHOR
This manual page was written by David Francos Cuartero. Permission is
granted to copy, distribute and/or modify this document under the terms
of the GNU General Public License, Version 2 or any later version pub-
lished by the Free Software Foundation On Debian systems, the complete
text of the GNU General Public License can be found in /usr/share/com-
mon-licenses/GPL.
SEE ALSO
airbase-ng(8)
aireplay-ng(8)
airmon-ng(8)
airodump-ng(8)
airserv-ng(8)
airtun-ng(8)
besside-ng(8)
easside-ng(8)
tkiptun-ng(8)
wesside-ng(8)
aircrack-ng(1)
airdecap-ng(1)
airdecloak-ng(1)
airolib-ng(1)
besside-ng-crawler(1)
buddy-ng(1)
ivstools(1)
kstats(1)
makeivs-ng(1)
packetforge-ng(1)
wpaclean(1)
airventriloquist(8)
Version 1.7.0 May 2022 AIRODUMP-NG-OUI-UPDATE(8)
airolib-ng
Manage and create a WPA/WPA2 pre-computed hashes tables
root@kali:~# airolib-ng -h
Airolib-ng 1.7 - (C) 2007, 2008, 2009 ebfe
https://www.aircrack-ng.org
Usage: airolib-ng <database> <operation> [options]
Operations:
--stats : Output information about the database.
--sql <sql> : Execute specified SQL statement.
--clean [all] : Clean the database from old junk. 'all' will also
reduce filesize if possible and run an integrity check.
--batch : Start batch-processing all combinations of ESSIDs
and passwords.
--verify [all] : Verify a set of randomly chosen PMKs.
If 'all' is given, all invalid PMK will be deleted.
--import [essid|passwd] <file> :
Import a text file as a list of ESSIDs or passwords.
--import cowpatty <file> :
Import a cowpatty file.
--export cowpatty <essid> <file> :
Export to a cowpatty file.
airserv-ng
A wireless card server
root@kali:~# airserv-ng -h
Airserv-ng 1.7 - (C) 2007, 2008, 2009 Andrea Bittau
https://www.aircrack-ng.org
Usage: airserv-ng <options>
Options:
-h : This help screen
-p <port> : TCP port to listen on (default:666)
-d <iface> : Wifi interface to use
-c <chan> : Channel to use
-v <level> : Debug level (1 to 3; default: 1)
airtun-ng
A virtual tunnel interface creator for aircrack-ng
root@kali:~# airtun-ng --help
Airtun-ng 1.7 - (C) 2006-2022 Thomas d'Otreppe
Original work: Martin Beck
https://www.aircrack-ng.org
usage: airtun-ng <options> <replay interface>
-x nbpps : number of packets per second (default: 100)
-a bssid : set Access Point MAC address
In WDS Mode this sets the Receiver
-i iface : capture packets from this interface
-y file : read PRGA from this file
-w wepkey : use this WEP-KEY to encrypt packets
-p pass : use this WPA passphrase to decrypt packets
(use with -a and -e)
-e essid : target network SSID (use with -p)
-t tods : send frames to AP (1) or to client (0)
or tunnel them into a WDS/Bridge (2)
-r file : read frames out of pcap file
-h MAC : source MAC address
WDS/Bridge Mode options:
-s transmitter : set Transmitter MAC address for WDS Mode
-b : bidirectional mode. This enables communication
in Transmitter's AND Receiver's networks.
Works only if you can see both stations.
Repeater options:
--repeat : activates repeat mode
--bssid <mac> : BSSID to repeat
--netmask <mask> : netmask for BSSID filter
--help : Displays this usage screen
airventriloquist-ng
Encrypted WiFi packet injection
root@kali:~# airventriloquist-ng --help
Airventriloquist-ng 1.7 - (C) 2015 Tim de Waal
https://www.aircrack-ng.org
usage: airventriloquist-ng [options]
-i <replay interface> : Interface to listen and inject on
-d | --deauth : Send active deauths to encrypted stations
-e | --essid <value> : ESSID of target network
-p | --passphrase <val> : WPA Passphrase of target network
-c | --icmp : Respond to all ICMP frames (Debug)
-n | --dns : IP to resolve all DNS queries to
-s | --hijack <URL> : URL to look for in HTTP requests
<URL> can have wildcards
eg: *jquery*.js*
-r | --redirect <URL> : URL to redirect to
-v | --verbose : Verbose output
--help : This super helpful message
besside-ng
Crack a WEP or WPA key without user intervention and collaborate with WPA cracking statistics
root@kali:~# besside-ng -h
Besside-ng 1.7 - (C) 2010 Andrea Bittau
https://www.aircrack-ng.org
Usage: besside-ng [options] <interface>
Options:
-b <victim mac> Victim BSSID
-R <victim ap regex> Victim ESSID regex (requires PCRE)
-s <WPA server> Upload wpa.cap for cracking
-c <chan> chanlock
-p <pps> flood rate
-W WPA only
-v verbose, -vv for more, etc.
-h This help screen
besside-ng-crawler
Filter EAPOL frames from a directory of capture files.
root@kali:~# besside-ng-crawler -h
Use: besside-ng-crawler <SearchDir> <CapFileOut>
What does it do?
It recurses the SearchDir directory
Opens all files in there, searching for pcap-dumpfiles
Filters out a single beacon and all EAPOL frames from the WPA networks in there
And saves them to CapFileOut.
buddy-ng
A tool to work with easside-ng
root@kali:~# buddy-ng -h
Buddy-ng 1.7 - (C) 2007,2008 Andrea Bittau
https://www.aircrack-ng.org
Usage: buddy-ng <options>
Options:
-h : This help screen
-p : Don't drop privileges
dcrack
root@kali:~# dcrack -h
Unknown cmd -h
dcrack v0.3
Usage: dcrack.py [MODE]
server Runs coordinator
client <server addr> Runs cracker
cmd <server addr> [CMD] Sends a command to server
[CMD] can be:
dict <file>
cap <file>
crack <bssid>
remove <bssid>
status
easside-ng
An auto-magic tool which allows you to communicate via an WEP-encrypted AP without knowing the key
root@kali:~# easside-ng -h
Easside-ng 1.7 - (C) 2007, 2008, 2009 Andrea Bittau
https://www.aircrack-ng.org
Usage: easside-ng <options>
Options:
-h : This help screen
-v <victim mac> : Victim BSSID
-m <src mac> : Source MAC address
-i <ip> : Source IP address
-r <router ip> : Router IP address
-s <buddy ip> : Buddy-ng IP address (mandatory)
-f <iface> : Interface to use (mandatory)
-c <channel> : Lock card to this channel
-n : Determine Internet IP only
ivstools
Extract IVs from a pcap file or merges several .ivs files into one
root@kali:~# ivstools -h
ivsTools 1.7 - (C) 2006-2022 Thomas d'Otreppe
https://www.aircrack-ng.org
usage: ivstools --convert <pcap file> <ivs output file>
Extract ivs from a pcap file
ivstools --merge <ivs file 1> <ivs file 2> .. <output file>
Merge ivs files
kstats
Show statistical FMS algorithm votes for an ivs dump and a specified WEP key
root@kali:~# kstats -h
usage: kstats <ivs file> <104-bit key>
makeivs-ng
Generate a dummy IVS dump file with a specific WEP key
root@kali:~# makeivs-ng -h
makeivs-ng 1.7 - (C) 2006-2022 Thomas d'Otreppe
https://www.aircrack-ng.org
usage: makeivs-ng [options]
Common options:
-b <bssid> : Set access point MAC address
-f <num> : Number of first IV
-k <key> : Target network WEP key in hex
-s <num> : Seed used to setup random generator
-w <file> : Filename to write IVs into
-c <num> : Number of IVs to generate
-d <num> : Percentage of dupe IVs
-e <num> : Percentage of erroneous keystreams
-l <num> : Length of keystreams
-n : Ignores weak IVs
-p : Uses prng algorithm to generate IVs
--help : Displays this usage screen
packetforge-ng
Forge packets: ARP, UDP, ICMP or custom packets.
root@kali:~# packetforge-ng --help
Packetforge-ng 1.7 - (C) 2006-2022 Thomas d'Otreppe
Original work: Martin Beck
https://www.aircrack-ng.org
Usage: packetforge-ng <mode> <options>
Forge options:
-p <fctrl> : set frame control word (hex)
-a <bssid> : set Access Point MAC address
-c <dmac> : set Destination MAC address
-h <smac> : set Source MAC address
-j : set FromDS bit
-o : clear ToDS bit
-e : disables WEP encryption
-k <ip[:port]> : set Destination IP [Port]
-l <ip[:port]> : set Source IP [Port]
-t ttl : set Time To Live
-w <file> : write packet to this pcap file
-s <size> : specify size of null packet
-n <packets> : set number of packets to generate
Source options:
-r <file> : read packet from this raw file
-y <file> : read PRGA from this file
Modes:
--arp : forge an ARP packet (-0)
--udp : forge an UDP packet (-1)
--icmp : forge an ICMP packet (-2)
--null : build a null packet (-3)
--custom : build a custom packet (-9)
--help : Displays this usage screen
tkiptun-ng
Inject a few frames into a WPA TKIP network with QoS
root@kali:~# tkiptun-ng --help
Tkiptun-ng 1.7 - (C) 2008-2022 Thomas d'Otreppe
https://www.aircrack-ng.org
usage: tkiptun-ng <options> <replay interface>
Filter options:
-d dmac : MAC address, Destination
-s smac : MAC address, Source
-m len : minimum packet length (default: 80)
-n len : maximum packet length (default: 80)
-t tods : frame control, To DS bit
-f fromds : frame control, From DS bit
-D : disable AP detection
-Z : select packets manually
Replay options:
-x nbpps : number of packets per second
-a bssid : set Access Point MAC address
-c dmac : set Destination MAC address
-h smac : set Source MAC address
-e essid : set target AP SSID
-M sec : MIC error timeout in seconds [60]
Debug options:
-K prga : keystream for continuation
-y file : keystream-file for continuation
-j : inject FromDS packets
-P pmk : pmk for verification/vuln testing
-p psk : psk to calculate pmk with essid
source options:
-i iface : capture packets from this interface
-r file : extract packets from this pcap file
--help : Displays this usage screen
wesside-ng
Crack a WEP key of an open network without user intervention
root@kali:~# wesside-ng -h
Wesside-ng 1.7 - (C) 2007, 2008, 2009 Andrea Bittau
https://www.aircrack-ng.org
Usage: wesside-ng <options>
Options:
-h : This help screen
-i <iface> : Interface to use (mandatory)
-m <my ip> : My IP address
-n <net ip> : Network IP address
-a <mymac> : Source MAC Address
-c : Do not crack the key
-p <min prga> : Minimum bytes of PRGA to gather
-v <victim mac> : Victim BSSID
-t <threshold> : Cracking threshold
-f <max chan> : Highest scanned chan (default: 11)
-k <txnum> : Ignore acks and tx txnum times
wpaclean
Clean wpa capture files
root@kali:~# wpaclean -h
Usage: wpaclean <out.cap> <in.cap> [in2.cap] [...]
airgraph-ng
airgraph-ng is a tool to create a graph ouf of the txt file created by airodump with its -w option. The graph shows the relationships between the clients and the access points.
Installed size: 106 KB
How to install: sudo apt install airgraph-ng
Dependencies:
- graphviz
- python3
airgraph-ng
A 802.11 visualization utility
root@kali:~# airgraph-ng -h
usage: airgraph-ng [-h] [-o OUTPUT] [-i INPUT] [-g GRAPH_TYPE] [-d]
Generate Client to AP Relationship (CAPR) and Common probe graph (CPG) from a
airodump-ng CSV file
options:
-h, --help show this help message and exit
-o OUTPUT, --output OUTPUT
Our Output Image ie... Image.png
-i INPUT, --input INPUT
Airodump-ng txt file in CSV format. NOT the pcap
-g GRAPH_TYPE, --graph GRAPH_TYPE
Graph Type Current [CAPR (Client to AP Relationship)
OR CPG (Common probe graph)]
-d, --dotfile Keep the dot graph file after the export to the PNG
image has been done
airodump-join
A support tool for airgraph-ng that allows you to join the airodump output files.
root@kali:~# airodump-join -h
Usage: airodump-join [options] arg1 arg2 arg3 .....
Options:
-h, --help show this help message and exit
-o OUTPUT, --output=OUTPUT
output file to write to
-i FILENAME, --file=FILENAME
Input files to read data from requires at least two
arguments
Updated on: 2024-May-23