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kismet_drone.conf 5.3 KB

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  1. # Kismet drone config file
  2. version=2005.04.R1
  3. # Name of server (Purely for organiational purposes)
  4. servername=Kismet
  5. # User to setid to (should be your normal user)
  6. suiduser=nobody
  7. # Port to serve packet data... This probably shouldn't be the same as the port
  8. # you configured kismet_server for, or else you'll have problems running them
  9. # on the same system.
  10. tcpport=3501
  11. # People allowed to connect, comma seperated IP addresses or network/mask
  12. # blocks. Netmasks can be expressed as dotted quad (/255.255.255.0) or as
  13. # numbers (/24)
  14. allowedhosts=127.0.0.1
  15. # Maximum number of concurrent stream attachments
  16. maxclients=5
  17. # Packet sources:
  18. # source=capture_cardtype,capture_interface,capture_name
  19. # Card type - Specifies the type of device. It can be one of:
  20. # cisco - Cisco card with Linux Kernel drivers
  21. # cisco_cvs - Cisco card with CVS Linux drivers
  22. # cisco_bsd - Cisco on *BSD
  23. # prism2 - Prism2 using wlan-ng drivers with pcap support (all
  24. # current versions support pcap)
  25. # prism2_hostap - Prism2 using hostap drivers
  26. # prism2_legacy - Prism2 using wlan-ng drivers without pcap support (0.1.9)
  27. # prism2_bsd - Prism2 on *BSD
  28. # orinoco - Orinoco cards using Snax's patched driers
  29. # generic - Generic card with no specific support. You will have
  30. # to put this into monitor mode yourself!
  31. # wsp100 - WSP100 embedded remote sensor.
  32. # wtapfile - Saved file of packets readable by libwiretap
  33. # ar5k - ar5k 802.11a using the vt_ar5k drivers
  34. # Capture interface - Specifies the network interface Kismet will watch for
  35. # packets to come in on. Typically "ethX" or "wlanX". For the WSP100 capture
  36. # engine, the WSP100 device sends packets via a UDP stream, so the capture
  37. # interface should be in the form of host:port where 'host' is the WSP100 and
  38. # 'port' is the local UDP port that it will send data to.
  39. # Capture Name - The name Kismet uses for this capture source. This is the
  40. # name used to specify what sources to enable.
  41. #
  42. # To enable multiple sources, specify a source line for each and then use the
  43. # enablesources line to enable them. For example:
  44. # source=prism2,wlan0,prism
  45. # source=cisco,eth0,cisco
  46. source=wrt54g,eth1,wireless
  47. # For v1 hardware uncomment this:
  48. # source=wrt54g,eth2,wireless
  49. # Comma-separated list of sources to enable. This is only needed if you wish
  50. # to selectively enable multiple sources.
  51. # enablesources=prism,cisco
  52. # Do we channelhop?
  53. channelhop=true
  54. # How many channels per second do we hop? (1-10)
  55. channelvelocity=5
  56. # By setting the dwell time for channel hopping we override the channelvelocity
  57. # setting above and dwell on each channel for the given number of seconds.
  58. #channeldwell=10
  59. # Do we split channels between cards on the same spectrum? This means if
  60. # multiple 802.11b capture sources are defined, they will be offset to cover
  61. # the most possible spectrum at a given time. This also controls splitting
  62. # fine-tuned sourcechannels lines which cover multiple interfaces (see below)
  63. splitchannels=true
  64. # Basic channel hopping control:
  65. # These define the channels the cards hop through for various frequency ranges
  66. # supported by Kismet. More finegrain control is available via the
  67. # "sourcechannels" configuration option.
  68. #
  69. # Don't change the IEEE80211<x> identifiers or channel hopping won't work.
  70. # Users outside the US might want to use this list:
  71. # defaultchannels=IEEE80211b:1,7,13,2,8,3,14,9,4,10,5,11,6,12
  72. defaultchannels=IEEE80211b:1,6,11,2,7,3,8,4,9,5,10
  73. # 802.11g uses the same channels as 802.11b...
  74. defaultchannels=IEEE80211g:1,6,11,2,7,3,8,4,9,5,10
  75. # 802.11a channels are non-overlapping so sequential is fine. You may want to
  76. # adjust the list depending on the channels your card actually supports.
  77. # defaultchannels=IEEE80211a:36,40,44,48,52,56,60,64,100,104,108,112,116,120,124,128,132,136,140,149,153,157,161,184,188,192,196,200,204,208,212,216
  78. defaultchannels=IEEE80211a:36,40,44,48,52,56,60,64
  79. # Combo cards like Atheros use both 'a' and 'b/g' channels. Of course, you
  80. # can also explicitly override a given source. You can use the script
  81. # extras/listchan.pl to extract all the channels your card supports.
  82. defaultchannels=IEEE80211ab:1,6,11,2,7,3,8,4,9,5,10,36,40,44,48,52,56,60,64
  83. # Fine-tuning channel hopping control:
  84. # The sourcechannels option can be used to set the channel hopping for
  85. # specific interfaces, and to control what interfaces share a list of
  86. # channels for split hopping. This can also be used to easily lock
  87. # one card on a single channel while hopping with other cards.
  88. # Any card without a sourcechannel definition will use the standard hopping
  89. # list.
  90. # sourcechannels=sourcename[,sourcename]:ch1,ch2,ch3,...chN
  91. # ie, for us channels on the source 'prism2source' (same as normal channel
  92. # hopping behavior):
  93. # sourcechannels=prism2source:1,6,11,2,7,3,8,4,9,5,10
  94. # Given two capture sources, "prism2a" and "prism2b", we want prism2a to stay
  95. # on channel 6 and prism2b to hop normally. By not setting a sourcechannels
  96. # line for prism2b, it will use the standard hopping.
  97. # sourcechannels=prism2a:6
  98. # To assign the same custom hop channel to multiple sources, or to split the
  99. # same custom hop channel over two sources (if splitchannels is true), list
  100. # them all on the same sourcechannels line:
  101. # sourcechannels=prism2a,prism2b,prism2c:1,6,11