add default configs for kismet
git-svn-id: svn://svn.openwrt.org/openwrt/trunk/openwrt@723 3c298f89-4303-0410-b956-a3cf2f4a3e73master
parent
bd8f203221
commit
068a8252e9
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@ -94,6 +94,9 @@ $(PKG_BUILD_DIR)/kismet_server $(PKG_BUILD_DIR)/kismet_drone $(PKG_BUILD_DIR)/ki
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$(IPKG_SERVER): $(PKG_BUILD_DIR)/kismet_server
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$(SCRIPT_DIR)/make-ipkg-dir.sh $(IDIR_SERVER) kismet-server.control $(PKG_VERSION)-$(PKG_RELEASE) $(ARCH)
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mkdir -p $(IDIR_SERVER)/etc
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cp ./files/kismet.conf $(IDIR_SERVER)/etc/
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echo '/etc/kismet.conf' > $(IDIR_SERVER)/CONTROL/conffiles
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mkdir -p $(IDIR_SERVER)/usr/sbin
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cp $< $(IDIR_SERVER)/usr/sbin/
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$(STRIP) $(IDIR_SERVER)/usr/sbin/*
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@ -105,6 +108,9 @@ $(INFO_SERVER): $(IPKG_SERVER)
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$(IPKG_DRONE): $(PKG_BUILD_DIR)/kismet_drone
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$(SCRIPT_DIR)/make-ipkg-dir.sh $(IDIR_DRONE) kismet-drone.control $(PKG_VERSION)-$(PKG_RELEASE) $(ARCH)
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mkdir -p $(IDIR_DRONE)/etc
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cp ./files/kismet_drone.conf $(IDIR_DRONE)/etc/
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echo '/etc/kismet_drone.conf' > $(IDIR_DRONE)/CONTROL/conffiles
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mkdir -p $(IDIR_DRONE)/usr/sbin
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cp $< $(IDIR_DRONE)/usr/sbin/
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$(STRIP) $(IDIR_DRONE)/usr/sbin/*
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@ -116,6 +122,9 @@ $(INFO_DRONE): $(IPKG_DRONE)
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$(IPKG_CLIENT): $(PKG_BUILD_DIR)/kismet_client
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$(SCRIPT_DIR)/make-ipkg-dir.sh $(IDIR_CLIENT) kismet-client.control $(PKG_VERSION)-$(PKG_RELEASE) $(ARCH)
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mkdir -p $(IDIR_CLIENT)/etc
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cp ./files/kismet.conf $(IDIR_CLIENT)/etc/
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echo '/etc/kismet.conf' > $(IDIR_CLIENT)/CONTROL/conffiles
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mkdir -p $(IDIR_CLIENT)/usr/sbin
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cp $< $(IDIR_CLIENT)/usr/sbin/
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$(STRIP) $(IDIR_CLIENT)/usr/sbin/*
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@ -0,0 +1,323 @@
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# Kismet config file
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# Most of the "static" configs have been moved to here -- the command line
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# config was getting way too crowded and cryptic. We want functionality,
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# not continually reading --help!
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# Version of Kismet config
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version=2004.10.R1
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# Name of server (Purely for organiational purposes)
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servername=Kismet
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# User to setid to (should be your normal user)
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suiduser=root
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# Sources are defined as:
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# source=cardtype,interface,name[,initialchannel]
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# Card types and required drivers are listed in the README.
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# The initial channel is optional, if hopping is not enabled it can be used
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# to set the channel the interface listens on.
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# YOU MUST CHANGE THIS TO BE THE SOURCE YOU WANT TO USE
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source=none,none,addme
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# Comma-separated list of sources to enable. This is only needed if you defined
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# multiple sources and only want to enable some of them. By default, all defined
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# sources are enabled.
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# For example:
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# enablesources=prismsource,ciscosource
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# Do we channelhop?
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channelhop=true
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# How many channels per second do we hop? (1-10)
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channelvelocity=5
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# By setting the dwell time for channel hopping we override the channelvelocity
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# setting above and dwell on each channel for the given number of seconds.
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#channeldwell=10
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# Do we split channels between cards on the same spectrum? This means if
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# multiple 802.11b capture sources are defined, they will be offset to cover
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# the most possible spectrum at a given time. This also controls splitting
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# fine-tuned sourcechannels lines which cover multiple interfaces (see below)
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channelsplit=true
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# Basic channel hopping control:
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# These define the channels the cards hop through for various frequency ranges
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# supported by Kismet. More finegrain control is available via the
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# "sourcechannels" configuration option.
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#
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# Don't change the IEEE80211<x> identifiers or channel hopping won't work.
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# Users outside the US might want to use this list:
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# defaultchannels=IEEE80211b:1,7,13,2,8,3,14,9,4,10,5,11,6,12
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defaultchannels=IEEE80211b:1,6,11,2,7,3,8,4,9,5,10
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# 802.11g uses the same channels as 802.11b...
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defaultchannels=IEEE80211g:1,6,11,2,7,3,8,4,9,5,10
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# 802.11a channels are non-overlapping so sequential is fine. You may want to
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# adjust the list depending on the channels your card actually supports.
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# 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
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defaultchannels=IEEE80211a:36,40,44,48,52,56,60,64
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# Combo cards like Atheros use both 'a' and 'b/g' channels. Of course, you
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# can also explicitly override a given source. You can use the script
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# extras/listchan.pl to extract all the channels your card supports.
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defaultchannels=IEEE80211ab:1,6,11,2,7,3,8,4,9,5,10,36,40,44,48,52,56,60,64
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# Fine-tuning channel hopping control:
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# The sourcechannels option can be used to set the channel hopping for
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# specific interfaces, and to control what interfaces share a list of
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# channels for split hopping. This can also be used to easily lock
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# one card on a single channel while hopping with other cards.
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# Any card without a sourcechannel definition will use the standard hopping
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# list.
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# sourcechannels=sourcename[,sourcename]:ch1,ch2,ch3,...chN
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# ie, for us channels on the source 'prism2source' (same as normal channel
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# hopping behavior):
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# sourcechannels=prism2source:1,6,11,2,7,3,8,4,9,5,10
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# Given two capture sources, "prism2a" and "prism2b", we want prism2a to stay
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# on channel 6 and prism2b to hop normally. By not setting a sourcechannels
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# line for prism2b, it will use the standard hopping.
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# sourcechannels=prism2a:6
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# To assign the same custom hop channel to multiple sources, or to split the
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# same custom hop channel over two sources (if splitchannels is true), list
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# them all on the same sourcechannels line:
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# sourcechannels=prism2a,prism2b,prism2c:1,6,11
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# Port to serve GUI data
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tcpport=2501
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# People allowed to connect, comma seperated IP addresses or network/mask
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# blocks. Netmasks can be expressed as dotted quad (/255.255.255.0) or as
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# numbers (/24)
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allowedhosts=127.0.0.1
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# Maximum number of concurrent GUI's
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maxclients=5
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# Do we have a GPS?
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gps=true
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# Host:port that GPSD is running on. This can be localhost OR remote!
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gpshost=localhost:2947
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# Do we lock the mode? This overrides coordinates of lock "0", which will
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# generate some bad information until you get a GPS lock, but it will
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# fix problems with GPS units with broken NMEA that report lock 0
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gpsmodelock=false
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# Packet filtering options:
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# filter_tracker - Packets filtered from the tracker are not processed or
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# recorded in any way.
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# filter_dump - Packets filtered at the dump level are tracked, displayed,
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# and written to the csv/xml/network/etc files, but not
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# recorded in the packet dump
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# filter_export - Controls what packets influence the exported CSV, network,
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# xml, gps, etc files.
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# All filtering options take arguments containing the type of address and
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# addresses to be filtered. Valid address types are 'ANY', 'BSSID',
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# 'SOURCE', and 'DEST'. Filtering can be inverted by the use of '!' before
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# the address. For example,
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# filter_tracker=ANY(!00:00:DE:AD:BE:EF)
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# has the same effect as the previous mac_filter config file option.
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# filter_tracker=...
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# filter_dump=...
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# filter_export=...
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# Alerts to be reported and the throttling rates.
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# alert=name,throttle/unit,burst
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# The throttle/unit describes the number of alerts of this type that are
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# sent per time unit. Valid time units are second, minute, hour, and day.
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# Burst describes the number of alerts sent before throttling takes place.
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# For example:
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# alert=FOO,10/min,5
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# Would allow 5 alerts through before throttling is enabled, and will then
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# limit the number of alerts to 10 per minute.
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# A throttle rate of 0 disables throttling of the alert.
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# See the README for a list of alert types.
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alert=NETSTUMBLER,5/min,2
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alert=WELLENREITER,5/min,2
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alert=LUCENTTEST,5/min,2
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alert=DEAUTHFLOOD,5/min,4
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alert=BCASTDISCON,5/min,4
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alert=CHANCHANGE,5/min,4
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alert=AIRJACKSSID,5/min,2
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alert=PROBENOJOIN,5/min,2
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alert=DISASSOCTRAFFIC,5/min,2
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alert=NULLPROBERESP,5/min,5
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alert=BSSTIMESTAMP,5/min,5
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# Known WEP keys to decrypt, bssid,hexkey. This is only for networks where
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# the keys are already known, and it may impact throughput on slower hardware.
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# Multiple wepkey lines may be used for multiple BSSIDs.
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# wepkey=00:DE:AD:C0:DE:00,FEEDFACEDEADBEEF01020304050607080900
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# Is transmission of the keys to the client allowed? This may be a security
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# risk for some. If you disable this, you will not be able to query keys from
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# a client.
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allowkeytransmit=true
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# How often (in seconds) do we write all our data files (0 to disable)
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writeinterval=300
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# Do we use sound?
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# Not to be confused with GUI sound parameter, this controls wether or not the
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# server itself will play sound. Primarily for headless or automated systems.
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sound=false
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# Path to sound player
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soundplay=/usr/bin/play
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# Optional parameters to pass to the player
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# soundopts=--volume=.3
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# New network found
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sound_new=/tmp/share/kismet/wav/new_network.wav
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# Wepped new network
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# sound_new_wep=${prefix}/com/kismet/wav/new_wep_network.wav
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# Network traffic sound
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sound_traffic=/tmp/share/kismet/wav/traffic.wav
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# Network junk traffic found
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sound_junktraffic=/tmp/share/kismet/wav/junk_traffic.wav
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# GPS lock aquired sound
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# sound_gpslock=/tmp/share/kismet/wav/foo.wav
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# GPS lock lost sound
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# sound_gpslost=/tmp/share/kismet/wav/bar.wav
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# Alert sound
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sound_alert=/tmp/share/kismet/wav/alert.wav
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# Does the server have speech? (Again, not to be confused with the GUI's speech)
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speech=false
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# Server's path to Festival
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festival=/usr/bin/festival
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# How do we speak? Valid options:
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# speech Normal speech
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# nato NATO spellings (alpha, bravo, charlie)
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# spell Spell the letters out (aye, bee, sea)
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speech_type=nato
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# speech_encrypted and speech_unencrypted - Speech templates
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# Similar to the logtemplate option, this lets you customize the speech output.
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# speech_encrypted is used for an encrypted network spoken string
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# speech_unencrypted is used for an unencrypted network spoken string
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#
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# %b is replaced by the BSSID (MAC) of the network
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# %s is replaced by the SSID (name) of the network
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# %c is replaced by the CHANNEL of the network
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# %r is replaced by the MAX RATE of the network
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speech_encrypted=New network detected, s.s.i.d. %s, channel %c, network encrypted.
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speech_unencrypted=New network detected, s.s.i.d. %s, channel %c, network open.
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# Where do we get our manufacturer fingerprints from? Assumed to be in the
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# default config directory if an absolute path is not given.
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ap_manuf=ap_manuf
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client_manuf=client_manuf
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# Use metric measurements in the output?
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metric=false
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# Do we write waypoints for gpsdrive to load? Note: This is NOT related to
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# recent versions of GPSDrive's native support of Kismet.
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waypoints=false
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# GPSMap waypoint file. This WILL be truncated.
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waypointdata=%h/.gpsdrive/way_kismet.txt
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# How many alerts do we backlog for new clients? Only change this if you have
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# a -very- low memory system and need those extra bytes, or if you have a high
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# memory system and a huge number of alert conditions.
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alertbacklog=50
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# File types to log, comma seperated
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# dump - raw packet dump
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# network - plaintext detected networks
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# csv - plaintext detected networks in CSV format
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# xml - XML formatted network and cisco log
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# weak - weak packets (in airsnort format)
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# cisco - cisco equipment CDP broadcasts
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# gps - gps coordinates
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logtypes=dump,network,csv,xml,weak,cisco,gps
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# Do we track probe responses and merge probe networks into their owners?
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# This isn't always desireable, depending on the type of monitoring you're
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# trying to do.
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trackprobenets=true
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# Do we log "noise" packets that we can't decipher? I tend to not, since
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# they don't have anything interesting at all in them.
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noiselog=false
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# Do we log corrupt packets? Corrupt packets have enough header information
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# to see what they are, but someting is wrong with them that prevents us from
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# completely dissecting them. Logging these is usually not a bad idea.
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corruptlog=true
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# Do we log beacon packets or do we filter them out of the dumpfile
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beaconlog=true
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# Do we log PHY layer packets or do we filter them out of the dumpfile
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phylog=true
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# Do we mangle packets if we can decrypt them or if they're fuzzy-detected
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mangledatalog=true
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# Do we do "fuzzy" crypt detection? (byte-based detection instead of 802.11
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# frame headers)
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# valid option: Comma seperated list of card types to perform fuzzy detection
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# on, or 'all'
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fuzzycrypt=wtapfile,wlanng,wlanng_legacy,wlanng_avs,hostap,wlanng_wext
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# What type of dump do we generate?
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# valid option: "wiretap"
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dumptype=wiretap
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# Do we limit the size of dump logs? Sometimes ethereal can't handle big ones.
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# 0 = No limit
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# Anything else = Max number of packets to log to a single file before closing
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# and opening a new one.
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dumplimit=0
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# Do we write data packets to a FIFO for an external data-IDS (such as Snort)?
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# See the docs before enabling this.
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#fifo=/tmp/kismet_dump
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# Default log title
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logdefault=Kismet
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# logtemplate - Filename logging template.
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# This is, at first glance, really nasty and ugly, but you'll hardly ever
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# have to touch it so don't complain too much.
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#
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# %n is replaced by the logging instance name
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# %d is replaced by the current date as Mon-DD-YYYY
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# %D is replaced by the current date as YYYYMMDD
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# %t is replaced by the starting log time
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# %i is replaced by the increment log in the case of multiple logs
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# %l is replaced by the log type (dump, status, crypt, etc)
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# %h is replaced by the home directory
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# ie, "netlogs/%n-%d-%i.dump" called with a logging name of "Pok" could expand
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# to something like "netlogs/Pok-Dec-20-01-1.dump" for the first instance and
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# "netlogs/Pok-Dec-20-01-2.%l" for the second logfile generated.
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# %h/netlots/%n-%d-%i.dump could expand to
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# /home/foo/netlogs/Pok-Dec-20-01-2.dump
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#
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# Other possibilities: Sorting by directory
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# logtemplate=%l/%n-%d-%i
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# Would expand to, for example,
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# dump/Pok-Dec-20-01-1
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# crypt/Pok-Dec-20-01-1
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# and so on. The "dump", "crypt", etc, dirs must exist before kismet is run
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# in this case.
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logtemplate=%n-%d-%i.%l
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# Where do we store the pid file of the server?
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piddir=/var/run/
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# Where state info, etc, is stored. You shouldnt ever need to change this.
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# This is a directory.
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configdir=%h/.kismet/
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# cloaked SSID file. You shouldn't ever need to change this.
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ssidmap=ssid_map
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# Group map file. You shouldn't ever need to change this.
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groupmap=group_map
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# IP range map file. You shouldn't ever need to change this.
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ipmap=ip_map
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@ -0,0 +1,120 @@
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# Kismet drone config file
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version=Feb.04.01a
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# Name of server (Purely for organiational purposes)
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servername=Kismet
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# User to setid to (should be your normal user)
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suiduser=your_user_here
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# Port to serve packet data... This probably shouldn't be the same as the port
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# you configured kismet_server for, or else you'll have problems running them
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# on the same system.
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tcpport=3501
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# People allowed to connect, comma seperated IP addresses or network/mask
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# blocks. Netmasks can be expressed as dotted quad (/255.255.255.0) or as
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# numbers (/24)
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allowedhosts=127.0.0.1
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# Maximum number of concurrent stream attachments
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maxclients=5
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# Packet sources:
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# source=capture_cardtype,capture_interface,capture_name
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# Card type - Specifies the type of device. It can be one of:
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# cisco - Cisco card with Linux Kernel drivers
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# cisco_cvs - Cisco card with CVS Linux drivers
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# cisco_bsd - Cisco on *BSD
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# prism2 - Prism2 using wlan-ng drivers with pcap support (all
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# current versions support pcap)
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# prism2_hostap - Prism2 using hostap drivers
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# prism2_legacy - Prism2 using wlan-ng drivers without pcap support (0.1.9)
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# prism2_bsd - Prism2 on *BSD
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# orinoco - Orinoco cards using Snax's patched driers
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# generic - Generic card with no specific support. You will have
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# to put this into monitor mode yourself!
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# wsp100 - WSP100 embedded remote sensor.
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# wtapfile - Saved file of packets readable by libwiretap
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# ar5k - ar5k 802.11a using the vt_ar5k drivers
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# Capture interface - Specifies the network interface Kismet will watch for
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# packets to come in on. Typically "ethX" or "wlanX". For the WSP100 capture
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# engine, the WSP100 device sends packets via a UDP stream, so the capture
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# interface should be in the form of host:port where 'host' is the WSP100 and
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# 'port' is the local UDP port that it will send data to.
|
||||
# Capture Name - The name Kismet uses for this capture source. This is the
|
||||
# name used to specify what sources to enable.
|
||||
#
|
||||
# To enable multiple sources, specify a source line for each and then use the
|
||||
# enablesources line to enable them. For example:
|
||||
# source=prism2,wlan0,prism
|
||||
# source=cisco,eth0,cisco
|
||||
|
||||
source=generic,prism0,Kismet-Drone
|
||||
|
||||
# Comma-separated list of sources to enable. This is only needed if you wish
|
||||
# to selectively enable multiple sources.
|
||||
# enablesources=prism,cisco
|
||||
|
||||
# Do we channelhop?
|
||||
channelhop=true
|
||||
|
||||
# How many channels per second do we hop? (1-10)
|
||||
channelvelocity=5
|
||||
|
||||
# By setting the dwell time for channel hopping we override the channelvelocity
|
||||
# setting above and dwell on each channel for the given number of seconds.
|
||||
#channeldwell=10
|
||||
|
||||
# Do we split channels between cards on the same spectrum? This means if
|
||||
# multiple 802.11b capture sources are defined, they will be offset to cover
|
||||
# the most possible spectrum at a given time. This also controls splitting
|
||||
# fine-tuned sourcechannels lines which cover multiple interfaces (see below)
|
||||
splitchannels=true
|
||||
|
||||
# Basic channel hopping control:
|
||||
# These define the channels the cards hop through for various frequency ranges
|
||||
# supported by Kismet. More finegrain control is available via the
|
||||
# "sourcechannels" configuration option.
|
||||
#
|
||||
# Don't change the IEEE80211<x> identifiers or channel hopping won't work.
|
||||
|
||||
# Users outside the US might want to use this list:
|
||||
# defaultchannels=IEEE80211b:1,7,13,2,8,3,14,9,4,10,5,11,6,12
|
||||
defaultchannels=IEEE80211b:1,6,11,2,7,3,8,4,9,5,10
|
||||
|
||||
# 802.11g uses the same channels as 802.11b...
|
||||
defaultchannels=IEEE80211g:1,6,11,2,7,3,8,4,9,5,10
|
||||
|
||||
# 802.11a channels are non-overlapping so sequential is fine. You may want to
|
||||
# adjust the list depending on the channels your card actually supports.
|
||||
# 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
|
||||
defaultchannels=IEEE80211a:36,40,44,48,52,56,60,64
|
||||
|
||||
# Combo cards like Atheros use both 'a' and 'b/g' channels. Of course, you
|
||||
# can also explicitly override a given source. You can use the script
|
||||
# extras/listchan.pl to extract all the channels your card supports.
|
||||
defaultchannels=IEEE80211ab:1,6,11,2,7,3,8,4,9,5,10,36,40,44,48,52,56,60,64
|
||||
|
||||
# Fine-tuning channel hopping control:
|
||||
# The sourcechannels option can be used to set the channel hopping for
|
||||
# specific interfaces, and to control what interfaces share a list of
|
||||
# channels for split hopping. This can also be used to easily lock
|
||||
# one card on a single channel while hopping with other cards.
|
||||
# Any card without a sourcechannel definition will use the standard hopping
|
||||
# list.
|
||||
# sourcechannels=sourcename[,sourcename]:ch1,ch2,ch3,...chN
|
||||
|
||||
# ie, for us channels on the source 'prism2source' (same as normal channel
|
||||
# hopping behavior):
|
||||
# sourcechannels=prism2source:1,6,11,2,7,3,8,4,9,5,10
|
||||
|
||||
# Given two capture sources, "prism2a" and "prism2b", we want prism2a to stay
|
||||
# on channel 6 and prism2b to hop normally. By not setting a sourcechannels
|
||||
# line for prism2b, it will use the standard hopping.
|
||||
# sourcechannels=prism2a:6
|
||||
|
||||
# To assign the same custom hop channel to multiple sources, or to split the
|
||||
# same custom hop channel over two sources (if splitchannels is true), list
|
||||
# them all on the same sourcechannels line:
|
||||
# sourcechannels=prism2a,prism2b,prism2c:1,6,11
|
||||
|
Loading…
Reference in New Issue