5d22a1d5aa
This updates management frame protection to use the assocition ping process from the latest draft (D6.0) to protect against unauthenticated authenticate or (re)associate frames dropping association.
840 lines
34 KiB
Text
840 lines
34 KiB
Text
##### hostapd configuration file ##############################################
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# Empty lines and lines starting with # are ignored
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# AP netdevice name (without 'ap' postfix, i.e., wlan0 uses wlan0ap for
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# management frames); ath0 for madwifi
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interface=wlan0
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# In case of madwifi and nl80211 driver interfaces, an additional configuration
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# parameter, bridge, must be used to notify hostapd if the interface is
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# included in a bridge. This parameter is not used with Host AP driver.
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#bridge=br0
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# Driver interface type (hostap/wired/madwifi/prism54/test/nl80211/bsd);
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# default: hostap)
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# Use driver=test if building hostapd as a standalone RADIUS server that does
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# not control any wireless/wired driver.
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# driver=hostap
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# hostapd event logger configuration
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#
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# Two output method: syslog and stdout (only usable if not forking to
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# background).
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#
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# Module bitfield (ORed bitfield of modules that will be logged; -1 = all
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# modules):
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# bit 0 (1) = IEEE 802.11
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# bit 1 (2) = IEEE 802.1X
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# bit 2 (4) = RADIUS
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# bit 3 (8) = WPA
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# bit 4 (16) = driver interface
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# bit 5 (32) = IAPP
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# bit 6 (64) = MLME
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#
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# Levels (minimum value for logged events):
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# 0 = verbose debugging
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# 1 = debugging
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# 2 = informational messages
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# 3 = notification
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# 4 = warning
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#
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logger_syslog=-1
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logger_syslog_level=2
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logger_stdout=-1
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logger_stdout_level=2
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# Dump file for state information (on SIGUSR1)
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dump_file=/tmp/hostapd.dump
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# Interface for separate control program. If this is specified, hostapd
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# will create this directory and a UNIX domain socket for listening to requests
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# from external programs (CLI/GUI, etc.) for status information and
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# configuration. The socket file will be named based on the interface name, so
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# multiple hostapd processes/interfaces can be run at the same time if more
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# than one interface is used.
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# /var/run/hostapd is the recommended directory for sockets and by default,
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# hostapd_cli will use it when trying to connect with hostapd.
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ctrl_interface=/var/run/hostapd
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# Access control for the control interface can be configured by setting the
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# directory to allow only members of a group to use sockets. This way, it is
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# possible to run hostapd as root (since it needs to change network
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# configuration and open raw sockets) and still allow GUI/CLI components to be
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# run as non-root users. However, since the control interface can be used to
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# change the network configuration, this access needs to be protected in many
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# cases. By default, hostapd is configured to use gid 0 (root). If you
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# want to allow non-root users to use the contron interface, add a new group
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# and change this value to match with that group. Add users that should have
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# control interface access to this group.
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#
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# This variable can be a group name or gid.
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#ctrl_interface_group=wheel
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ctrl_interface_group=0
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##### IEEE 802.11 related configuration #######################################
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# SSID to be used in IEEE 802.11 management frames
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ssid=test
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# Country code (ISO/IEC 3166-1). Used to set regulatory domain.
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# Modify as needed to indicate country in which device is operating.
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# This can limit available channels and transmit power.
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# (default: US)
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#country_code=US
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# Enable IEEE 802.11d. This advertises the country_code and the set of allowed
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# channels and transmit power levels based on the regulatory limits. The
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# country_code setting must be configured with the correct country for
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# IEEE 802.11d functions.
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# (default: 0 = disabled)
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#ieee80211d=1
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# Enable IEEE 802.11h. This enables the TPC and DFS services when operating
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# in a regulatory domain which requires them. Once enabled it will be
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# operational only when working in hw_mode a and in countries where it is
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# required. The end user should not be allowed to disable this.
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# The country_code setting must be configured with the correct country for
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# IEEE 802.11h to function.
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# When IEEE 802.11h is operational, the configured channel settings will be
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# ignored and automatic channel selection is used. When IEEE 802.11h is enabled
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# but not operational (for example, if the radio mode is changed from "a" to
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# "b") the channel setting take effect again.
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# (default: 0 = disabled)
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#ieee80211h=1
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# Operation mode (a = IEEE 802.11a, b = IEEE 802.11b, g = IEEE 802.11g,
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# Default: IEEE 802.11b
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hw_mode=a
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# Channel number (IEEE 802.11)
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# (default: 0, i.e., not set)
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# Please note that some drivers (e.g., madwifi) do not use this value from
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# hostapd and the channel will need to be configuration separately with
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# iwconfig.
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channel=60
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# Beacon interval in kus (1.024 ms) (default: 100; range 15..65535)
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beacon_int=100
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# DTIM (delivery trafic information message) period (range 1..255):
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# number of beacons between DTIMs (1 = every beacon includes DTIM element)
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# (default: 2)
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dtim_period=2
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# Maximum number of stations allowed in station table. New stations will be
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# rejected after the station table is full. IEEE 802.11 has a limit of 2007
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# different association IDs, so this number should not be larger than that.
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# (default: 2007)
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max_num_sta=255
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# RTS/CTS threshold; 2347 = disabled (default); range 0..2347
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# If this field is not included in hostapd.conf, hostapd will not control
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# RTS threshold and 'iwconfig wlan# rts <val>' can be used to set it.
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rts_threshold=2347
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# Fragmentation threshold; 2346 = disabled (default); range 256..2346
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# If this field is not included in hostapd.conf, hostapd will not control
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# fragmentation threshold and 'iwconfig wlan# frag <val>' can be used to set
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# it.
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fragm_threshold=2346
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# Rate configuration
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# Default is to enable all rates supported by the hardware. This configuration
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# item allows this list be filtered so that only the listed rates will be left
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# in the list. If the list is empty, all rates are used. This list can have
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# entries that are not in the list of rates the hardware supports (such entries
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# are ignored). The entries in this list are in 100 kbps, i.e., 11 Mbps = 110.
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# If this item is present, at least one rate have to be matching with the rates
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# hardware supports.
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# default: use the most common supported rate setting for the selected
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# hw_mode (i.e., this line can be removed from configuration file in most
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# cases)
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#supported_rates=10 20 55 110 60 90 120 180 240 360 480 540
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# Basic rate set configuration
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# List of rates (in 100 kbps) that are included in the basic rate set.
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# If this item is not included, usually reasonable default set is used.
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#basic_rates=10 20
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#basic_rates=10 20 55 110
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#basic_rates=60 120 240
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# Short Preamble
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# This parameter can be used to enable optional use of short preamble for
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# frames sent at 2 Mbps, 5.5 Mbps, and 11 Mbps to improve network performance.
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# This applies only to IEEE 802.11b-compatible networks and this should only be
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# enabled if the local hardware supports use of short preamble. If any of the
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# associated STAs do not support short preamble, use of short preamble will be
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# disabled (and enabled when such STAs disassociate) dynamically.
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# 0 = do not allow use of short preamble (default)
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# 1 = allow use of short preamble
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#preamble=1
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# Station MAC address -based authentication
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# Please note that this kind of access control requires a driver that uses
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# hostapd to take care of management frame processing and as such, this can be
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# used with driver=hostap or driver=nl80211, but not with driver=madwifi.
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# 0 = accept unless in deny list
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# 1 = deny unless in accept list
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# 2 = use external RADIUS server (accept/deny lists are searched first)
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macaddr_acl=0
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# Accept/deny lists are read from separate files (containing list of
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# MAC addresses, one per line). Use absolute path name to make sure that the
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# files can be read on SIGHUP configuration reloads.
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#accept_mac_file=/etc/hostapd.accept
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#deny_mac_file=/etc/hostapd.deny
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# IEEE 802.11 specifies two authentication algorithms. hostapd can be
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# configured to allow both of these or only one. Open system authentication
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# should be used with IEEE 802.1X.
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# Bit fields of allowed authentication algorithms:
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# bit 0 = Open System Authentication
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# bit 1 = Shared Key Authentication (requires WEP)
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auth_algs=3
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# Send empty SSID in beacons and ignore probe request frames that do not
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# specify full SSID, i.e., require stations to know SSID.
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# default: disabled (0)
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# 1 = send empty (length=0) SSID in beacon and ignore probe request for
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# broadcast SSID
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# 2 = clear SSID (ASCII 0), but keep the original length (this may be required
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# with some clients that do not support empty SSID) and ignore probe
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# requests for broadcast SSID
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ignore_broadcast_ssid=0
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# TX queue parameters (EDCF / bursting)
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# default for all these fields: not set, use hardware defaults
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# tx_queue_<queue name>_<param>
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# queues: data0, data1, data2, data3, after_beacon, beacon
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# (data0 is the highest priority queue)
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# parameters:
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# aifs: AIFS (default 2)
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# cwmin: cwMin (1, 3, 7, 15, 31, 63, 127, 255, 511, 1023)
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# cwmax: cwMax (1, 3, 7, 15, 31, 63, 127, 255, 511, 1023); cwMax >= cwMin
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# burst: maximum length (in milliseconds with precision of up to 0.1 ms) for
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# bursting
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#
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# Default WMM parameters (IEEE 802.11 draft; 11-03-0504-03-000e):
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# These parameters are used by the access point when transmitting frames
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# to the clients.
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#
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# Low priority / AC_BK = background
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#tx_queue_data3_aifs=7
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#tx_queue_data3_cwmin=15
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#tx_queue_data3_cwmax=1023
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#tx_queue_data3_burst=0
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# Note: for IEEE 802.11b mode: cWmin=31 cWmax=1023 burst=0
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#
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# Normal priority / AC_BE = best effort
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#tx_queue_data2_aifs=3
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#tx_queue_data2_cwmin=15
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#tx_queue_data2_cwmax=63
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#tx_queue_data2_burst=0
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# Note: for IEEE 802.11b mode: cWmin=31 cWmax=127 burst=0
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#
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# High priority / AC_VI = video
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#tx_queue_data1_aifs=1
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#tx_queue_data1_cwmin=7
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#tx_queue_data1_cwmax=15
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#tx_queue_data1_burst=3.0
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# Note: for IEEE 802.11b mode: cWmin=15 cWmax=31 burst=6.0
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#
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# Highest priority / AC_VO = voice
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#tx_queue_data0_aifs=1
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#tx_queue_data0_cwmin=3
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#tx_queue_data0_cwmax=7
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#tx_queue_data0_burst=1.5
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# Note: for IEEE 802.11b mode: cWmin=7 cWmax=15 burst=3.3
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#
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# Special queues; normally not user configurable
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#
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#tx_queue_after_beacon_aifs=2
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#tx_queue_after_beacon_cwmin=15
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#tx_queue_after_beacon_cwmax=1023
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#tx_queue_after_beacon_burst=0
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#
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#tx_queue_beacon_aifs=2
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#tx_queue_beacon_cwmin=3
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#tx_queue_beacon_cwmax=7
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#tx_queue_beacon_burst=1.5
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# 802.1D Tag to AC mappings
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# WMM specifies following mapping of data frames to different ACs. This mapping
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# can be configured using Linux QoS/tc and sch_pktpri.o module.
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# 802.1D Tag 802.1D Designation Access Category WMM Designation
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# 1 BK AC_BK Background
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# 2 - AC_BK Background
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# 0 BE AC_BE Best Effort
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# 3 EE AC_VI Video
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# 4 CL AC_VI Video
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# 5 VI AC_VI Video
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# 6 VO AC_VO Voice
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# 7 NC AC_VO Voice
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# Data frames with no priority information: AC_BE
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# Management frames: AC_VO
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# PS-Poll frames: AC_BE
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# Default WMM parameters (IEEE 802.11 draft; 11-03-0504-03-000e):
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# for 802.11a or 802.11g networks
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# These parameters are sent to WMM clients when they associate.
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# The parameters will be used by WMM clients for frames transmitted to the
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# access point.
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#
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# note - txop_limit is in units of 32microseconds
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# note - acm is admission control mandatory flag. 0 = admission control not
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# required, 1 = mandatory
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# note - here cwMin and cmMax are in exponent form. the actual cw value used
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# will be (2^n)-1 where n is the value given here
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#
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wme_enabled=1
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#
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# Low priority / AC_BK = background
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wme_ac_bk_cwmin=4
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wme_ac_bk_cwmax=10
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wme_ac_bk_aifs=7
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wme_ac_bk_txop_limit=0
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wme_ac_bk_acm=0
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# Note: for IEEE 802.11b mode: cWmin=5 cWmax=10
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#
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# Normal priority / AC_BE = best effort
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wme_ac_be_aifs=3
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wme_ac_be_cwmin=4
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wme_ac_be_cwmax=10
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wme_ac_be_txop_limit=0
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wme_ac_be_acm=0
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# Note: for IEEE 802.11b mode: cWmin=5 cWmax=7
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#
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# High priority / AC_VI = video
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wme_ac_vi_aifs=2
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wme_ac_vi_cwmin=3
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wme_ac_vi_cwmax=4
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wme_ac_vi_txop_limit=94
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wme_ac_vi_acm=0
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# Note: for IEEE 802.11b mode: cWmin=4 cWmax=5 txop_limit=188
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#
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# Highest priority / AC_VO = voice
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wme_ac_vo_aifs=2
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wme_ac_vo_cwmin=2
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wme_ac_vo_cwmax=3
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wme_ac_vo_txop_limit=47
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wme_ac_vo_acm=0
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# Note: for IEEE 802.11b mode: cWmin=3 cWmax=4 burst=102
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# Associate as a station to another AP while still acting as an AP on the same
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# channel.
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#assoc_ap_addr=00:12:34:56:78:9a
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# Static WEP key configuration
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#
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# The key number to use when transmitting.
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# It must be between 0 and 3, and the corresponding key must be set.
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# default: not set
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#wep_default_key=0
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# The WEP keys to use.
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# A key may be a quoted string or unquoted hexadecimal digits.
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# The key length should be 5, 13, or 16 characters, or 10, 26, or 32
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# digits, depending on whether 40-bit (64-bit), 104-bit (128-bit), or
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# 128-bit (152-bit) WEP is used.
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# Only the default key must be supplied; the others are optional.
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# default: not set
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#wep_key0=123456789a
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#wep_key1="vwxyz"
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#wep_key2=0102030405060708090a0b0c0d
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#wep_key3=".2.4.6.8.0.23"
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# Station inactivity limit
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#
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# If a station does not send anything in ap_max_inactivity seconds, an
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# empty data frame is sent to it in order to verify whether it is
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# still in range. If this frame is not ACKed, the station will be
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# disassociated and then deauthenticated. This feature is used to
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# clear station table of old entries when the STAs move out of the
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# range.
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#
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# The station can associate again with the AP if it is still in range;
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# this inactivity poll is just used as a nicer way of verifying
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# inactivity; i.e., client will not report broken connection because
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# disassociation frame is not sent immediately without first polling
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# the STA with a data frame.
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# default: 300 (i.e., 5 minutes)
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#ap_max_inactivity=300
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# Enable/disable internal bridge for packets between associated stations.
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#
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# When IEEE 802.11 is used in managed mode, packets are usually send through
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# the AP even if they are from a wireless station to another wireless station.
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# This functionality requires that the AP has a bridge functionality that sends
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# frames back to the same interface if their destination is another associated
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# station. In addition, broadcast/multicast frames from wireless stations will
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# be sent both to the host system net stack (e.g., to eventually wired network)
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# and back to the wireless interface.
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#
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# The internal bridge is implemented within the wireless kernel module and it
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# bypasses kernel filtering (netfilter/iptables/ebtables). If direct
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# communication between the stations needs to be prevented, the internal
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# bridge can be disabled by setting bridge_packets=0.
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#
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# Note: If this variable is not included in hostapd.conf, hostapd does not
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# change the configuration and iwpriv can be used to set the value with
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# 'iwpriv wlan# param 10 0' command. If the variable is in hostapd.conf,
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# hostapd will override possible iwpriv configuration whenever configuration
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# file is reloaded.
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#
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# default: do not control from hostapd (80211.o defaults to 1=enabled)
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#bridge_packets=1
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# Maximum allowed Listen Interval (how many Beacon periods STAs are allowed to
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# remain asleep). Default: 65535 (no limit apart from field size)
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#max_listen_interval=100
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##### IEEE 802.11n related configuration ######################################
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# ieee80211n: Whether IEEE 802.11n (HT) is enabled
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# 0 = disabled (default)
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# 1 = enabled
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#ieee80211n=1
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##### IEEE 802.1X-2004 related configuration ##################################
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# Require IEEE 802.1X authorization
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#ieee8021x=1
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# IEEE 802.1X/EAPOL version
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# hostapd is implemented based on IEEE Std 802.1X-2004 which defines EAPOL
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# version 2. However, there are many client implementations that do not handle
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# the new version number correctly (they seem to drop the frames completely).
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# In order to make hostapd interoperate with these clients, the version number
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# can be set to the older version (1) with this configuration value.
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#eapol_version=2
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# Optional displayable message sent with EAP Request-Identity. The first \0
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# in this string will be converted to ASCII-0 (nul). This can be used to
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# separate network info (comma separated list of attribute=value pairs); see,
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# e.g., RFC 4284.
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#eap_message=hello
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#eap_message=hello\0networkid=netw,nasid=foo,portid=0,NAIRealms=example.com
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# WEP rekeying (disabled if key lengths are not set or are set to 0)
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# Key lengths for default/broadcast and individual/unicast keys:
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# 5 = 40-bit WEP (also known as 64-bit WEP with 40 secret bits)
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# 13 = 104-bit WEP (also known as 128-bit WEP with 104 secret bits)
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#wep_key_len_broadcast=5
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#wep_key_len_unicast=5
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# Rekeying period in seconds. 0 = do not rekey (i.e., set keys only once)
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#wep_rekey_period=300
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# EAPOL-Key index workaround (set bit7) for WinXP Supplicant (needed only if
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# only broadcast keys are used)
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eapol_key_index_workaround=0
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# EAP reauthentication period in seconds (default: 3600 seconds; 0 = disable
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# reauthentication).
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#eap_reauth_period=3600
|
|
|
|
# Use PAE group address (01:80:c2:00:00:03) instead of individual target
|
|
# address when sending EAPOL frames with driver=wired. This is the most common
|
|
# mechanism used in wired authentication, but it also requires that the port
|
|
# is only used by one station.
|
|
#use_pae_group_addr=1
|
|
|
|
##### Integrated EAP server ###################################################
|
|
|
|
# Optionally, hostapd can be configured to use an integrated EAP server
|
|
# to process EAP authentication locally without need for an external RADIUS
|
|
# server. This functionality can be used both as a local authentication server
|
|
# for IEEE 802.1X/EAPOL and as a RADIUS server for other devices.
|
|
|
|
# Use integrated EAP server instead of external RADIUS authentication
|
|
# server. This is also needed if hostapd is configured to act as a RADIUS
|
|
# authentication server.
|
|
eap_server=0
|
|
|
|
# Path for EAP server user database
|
|
#eap_user_file=/etc/hostapd.eap_user
|
|
|
|
# CA certificate (PEM or DER file) for EAP-TLS/PEAP/TTLS
|
|
#ca_cert=/etc/hostapd.ca.pem
|
|
|
|
# Server certificate (PEM or DER file) for EAP-TLS/PEAP/TTLS
|
|
#server_cert=/etc/hostapd.server.pem
|
|
|
|
# Private key matching with the server certificate for EAP-TLS/PEAP/TTLS
|
|
# This may point to the same file as server_cert if both certificate and key
|
|
# are included in a single file. PKCS#12 (PFX) file (.p12/.pfx) can also be
|
|
# used by commenting out server_cert and specifying the PFX file as the
|
|
# private_key.
|
|
#private_key=/etc/hostapd.server.prv
|
|
|
|
# Passphrase for private key
|
|
#private_key_passwd=secret passphrase
|
|
|
|
# Enable CRL verification.
|
|
# Note: hostapd does not yet support CRL downloading based on CDP. Thus, a
|
|
# valid CRL signed by the CA is required to be included in the ca_cert file.
|
|
# This can be done by using PEM format for CA certificate and CRL and
|
|
# concatenating these into one file. Whenever CRL changes, hostapd needs to be
|
|
# restarted to take the new CRL into use.
|
|
# 0 = do not verify CRLs (default)
|
|
# 1 = check the CRL of the user certificate
|
|
# 2 = check all CRLs in the certificate path
|
|
#check_crl=1
|
|
|
|
# dh_file: File path to DH/DSA parameters file (in PEM format)
|
|
# This is an optional configuration file for setting parameters for an
|
|
# ephemeral DH key exchange. In most cases, the default RSA authentication does
|
|
# not use this configuration. However, it is possible setup RSA to use
|
|
# ephemeral DH key exchange. In addition, ciphers with DSA keys always use
|
|
# ephemeral DH keys. This can be used to achieve forward secrecy. If the file
|
|
# is in DSA parameters format, it will be automatically converted into DH
|
|
# params. This parameter is required if anonymous EAP-FAST is used.
|
|
# You can generate DH parameters file with OpenSSL, e.g.,
|
|
# "openssl dhparam -out /etc/hostapd.dh.pem 1024"
|
|
#dh_file=/etc/hostapd.dh.pem
|
|
|
|
# Configuration data for EAP-SIM database/authentication gateway interface.
|
|
# This is a text string in implementation specific format. The example
|
|
# implementation in eap_sim_db.c uses this as the UNIX domain socket name for
|
|
# the HLR/AuC gateway (e.g., hlr_auc_gw). In this case, the path uses "unix:"
|
|
# prefix.
|
|
#eap_sim_db=unix:/tmp/hlr_auc_gw.sock
|
|
|
|
# Encryption key for EAP-FAST PAC-Opaque values. This key must be a secret,
|
|
# random value. It is configured as a 16-octet value in hex format. It can be
|
|
# generated, e.g., with the following command:
|
|
# od -tx1 -v -N16 /dev/random | colrm 1 8 | tr -d ' '
|
|
#pac_opaque_encr_key=000102030405060708090a0b0c0d0e0f
|
|
|
|
# EAP-FAST authority identity (A-ID)
|
|
#eap_fast_a_id=test server
|
|
|
|
# EAP-SIM and EAP-AKA protected success/failure indication using AT_RESULT_IND
|
|
# (default: 0 = disabled).
|
|
#eap_sim_aka_result_ind=1
|
|
|
|
# Trusted Network Connect (TNC)
|
|
# If enabled, TNC validation will be required before the peer is allowed to
|
|
# connect. Note: This is only used with EAP-TTLS and EAP-FAST. If any other
|
|
# EAP method is enabled, the peer will be allowed to connect without TNC.
|
|
#tnc=1
|
|
|
|
|
|
##### IEEE 802.11f - Inter-Access Point Protocol (IAPP) #######################
|
|
|
|
# Interface to be used for IAPP broadcast packets
|
|
#iapp_interface=eth0
|
|
|
|
|
|
##### RADIUS client configuration #############################################
|
|
# for IEEE 802.1X with external Authentication Server, IEEE 802.11
|
|
# authentication with external ACL for MAC addresses, and accounting
|
|
|
|
# The own IP address of the access point (used as NAS-IP-Address)
|
|
own_ip_addr=127.0.0.1
|
|
|
|
# Optional NAS-Identifier string for RADIUS messages. When used, this should be
|
|
# a unique to the NAS within the scope of the RADIUS server. For example, a
|
|
# fully qualified domain name can be used here.
|
|
# When using IEEE 802.11r, nas_identifier must be set and must be between 1 and
|
|
# 48 octets long.
|
|
#nas_identifier=ap.example.com
|
|
|
|
# RADIUS authentication server
|
|
#auth_server_addr=127.0.0.1
|
|
#auth_server_port=1812
|
|
#auth_server_shared_secret=secret
|
|
|
|
# RADIUS accounting server
|
|
#acct_server_addr=127.0.0.1
|
|
#acct_server_port=1813
|
|
#acct_server_shared_secret=secret
|
|
|
|
# Secondary RADIUS servers; to be used if primary one does not reply to
|
|
# RADIUS packets. These are optional and there can be more than one secondary
|
|
# server listed.
|
|
#auth_server_addr=127.0.0.2
|
|
#auth_server_port=1812
|
|
#auth_server_shared_secret=secret2
|
|
#
|
|
#acct_server_addr=127.0.0.2
|
|
#acct_server_port=1813
|
|
#acct_server_shared_secret=secret2
|
|
|
|
# Retry interval for trying to return to the primary RADIUS server (in
|
|
# seconds). RADIUS client code will automatically try to use the next server
|
|
# when the current server is not replying to requests. If this interval is set,
|
|
# primary server will be retried after configured amount of time even if the
|
|
# currently used secondary server is still working.
|
|
#radius_retry_primary_interval=600
|
|
|
|
|
|
# Interim accounting update interval
|
|
# If this is set (larger than 0) and acct_server is configured, hostapd will
|
|
# send interim accounting updates every N seconds. Note: if set, this overrides
|
|
# possible Acct-Interim-Interval attribute in Access-Accept message. Thus, this
|
|
# value should not be configured in hostapd.conf, if RADIUS server is used to
|
|
# control the interim interval.
|
|
# This value should not be less 600 (10 minutes) and must not be less than
|
|
# 60 (1 minute).
|
|
#radius_acct_interim_interval=600
|
|
|
|
# Dynamic VLAN mode; allow RADIUS authentication server to decide which VLAN
|
|
# is used for the stations. This information is parsed from following RADIUS
|
|
# attributes based on RFC 3580 and RFC 2868: Tunnel-Type (value 13 = VLAN),
|
|
# Tunnel-Medium-Type (value 6 = IEEE 802), Tunnel-Private-Group-ID (value
|
|
# VLANID as a string). vlan_file option below must be configured if dynamic
|
|
# VLANs are used. Optionally, the local MAC ACL list (accept_mac_file) can be
|
|
# used to set static client MAC address to VLAN ID mapping.
|
|
# 0 = disabled (default)
|
|
# 1 = option; use default interface if RADIUS server does not include VLAN ID
|
|
# 2 = required; reject authentication if RADIUS server does not include VLAN ID
|
|
#dynamic_vlan=0
|
|
|
|
# VLAN interface list for dynamic VLAN mode is read from a separate text file.
|
|
# This list is used to map VLAN ID from the RADIUS server to a network
|
|
# interface. Each station is bound to one interface in the same way as with
|
|
# multiple BSSIDs or SSIDs. Each line in this text file is defining a new
|
|
# interface and the line must include VLAN ID and interface name separated by
|
|
# white space (space or tab).
|
|
#vlan_file=/etc/hostapd.vlan
|
|
|
|
# Interface where 802.1q tagged packets should appear when a RADIUS server is
|
|
# used to determine which VLAN a station is on. hostapd creates a bridge for
|
|
# each VLAN. Then hostapd adds a VLAN interface (associated with the interface
|
|
# indicated by 'vlan_tagged_interface') and the appropriate wireless interface
|
|
# to the bridge.
|
|
#vlan_tagged_interface=eth0
|
|
|
|
|
|
##### RADIUS authentication server configuration ##############################
|
|
|
|
# hostapd can be used as a RADIUS authentication server for other hosts. This
|
|
# requires that the integrated EAP server is also enabled and both
|
|
# authentication services are sharing the same configuration.
|
|
|
|
# File name of the RADIUS clients configuration for the RADIUS server. If this
|
|
# commented out, RADIUS server is disabled.
|
|
#radius_server_clients=/etc/hostapd.radius_clients
|
|
|
|
# The UDP port number for the RADIUS authentication server
|
|
#radius_server_auth_port=1812
|
|
|
|
# Use IPv6 with RADIUS server (IPv4 will also be supported using IPv6 API)
|
|
#radius_server_ipv6=1
|
|
|
|
|
|
##### WPA/IEEE 802.11i configuration ##########################################
|
|
|
|
# Enable WPA. Setting this variable configures the AP to require WPA (either
|
|
# WPA-PSK or WPA-RADIUS/EAP based on other configuration). For WPA-PSK, either
|
|
# wpa_psk or wpa_passphrase must be set and wpa_key_mgmt must include WPA-PSK.
|
|
# For WPA-RADIUS/EAP, ieee8021x must be set (but without dynamic WEP keys),
|
|
# RADIUS authentication server must be configured, and WPA-EAP must be included
|
|
# in wpa_key_mgmt.
|
|
# This field is a bit field that can be used to enable WPA (IEEE 802.11i/D3.0)
|
|
# and/or WPA2 (full IEEE 802.11i/RSN):
|
|
# bit0 = WPA
|
|
# bit1 = IEEE 802.11i/RSN (WPA2) (dot11RSNAEnabled)
|
|
#wpa=1
|
|
|
|
# WPA pre-shared keys for WPA-PSK. This can be either entered as a 256-bit
|
|
# secret in hex format (64 hex digits), wpa_psk, or as an ASCII passphrase
|
|
# (8..63 characters) that will be converted to PSK. This conversion uses SSID
|
|
# so the PSK changes when ASCII passphrase is used and the SSID is changed.
|
|
# wpa_psk (dot11RSNAConfigPSKValue)
|
|
# wpa_passphrase (dot11RSNAConfigPSKPassPhrase)
|
|
#wpa_psk=0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef
|
|
#wpa_passphrase=secret passphrase
|
|
|
|
# Optionally, WPA PSKs can be read from a separate text file (containing list
|
|
# of (PSK,MAC address) pairs. This allows more than one PSK to be configured.
|
|
# Use absolute path name to make sure that the files can be read on SIGHUP
|
|
# configuration reloads.
|
|
#wpa_psk_file=/etc/hostapd.wpa_psk
|
|
|
|
# Set of accepted key management algorithms (WPA-PSK, WPA-EAP, or both). The
|
|
# entries are separated with a space.
|
|
# (dot11RSNAConfigAuthenticationSuitesTable)
|
|
#wpa_key_mgmt=WPA-PSK WPA-EAP
|
|
|
|
# Set of accepted cipher suites (encryption algorithms) for pairwise keys
|
|
# (unicast packets). This is a space separated list of algorithms:
|
|
# CCMP = AES in Counter mode with CBC-MAC [RFC 3610, IEEE 802.11i/D7.0]
|
|
# TKIP = Temporal Key Integrity Protocol [IEEE 802.11i/D7.0]
|
|
# Group cipher suite (encryption algorithm for broadcast and multicast frames)
|
|
# is automatically selected based on this configuration. If only CCMP is
|
|
# allowed as the pairwise cipher, group cipher will also be CCMP. Otherwise,
|
|
# TKIP will be used as the group cipher.
|
|
# (dot11RSNAConfigPairwiseCiphersTable)
|
|
# Pairwise cipher for WPA (v1) (default: TKIP)
|
|
#wpa_pairwise=TKIP CCMP
|
|
# Pairwise cipher for RSN/WPA2 (default: use wpa_pairwise value)
|
|
#rsn_pairwise=CCMP
|
|
|
|
# Time interval for rekeying GTK (broadcast/multicast encryption keys) in
|
|
# seconds. (dot11RSNAConfigGroupRekeyTime)
|
|
#wpa_group_rekey=600
|
|
|
|
# Rekey GTK when any STA that possesses the current GTK is leaving the BSS.
|
|
# (dot11RSNAConfigGroupRekeyStrict)
|
|
#wpa_strict_rekey=1
|
|
|
|
# Time interval for rekeying GMK (master key used internally to generate GTKs
|
|
# (in seconds).
|
|
#wpa_gmk_rekey=86400
|
|
|
|
# Enable IEEE 802.11i/RSN/WPA2 pre-authentication. This is used to speed up
|
|
# roaming be pre-authenticating IEEE 802.1X/EAP part of the full RSN
|
|
# authentication and key handshake before actually associating with a new AP.
|
|
# (dot11RSNAPreauthenticationEnabled)
|
|
#rsn_preauth=1
|
|
#
|
|
# Space separated list of interfaces from which pre-authentication frames are
|
|
# accepted (e.g., 'eth0' or 'eth0 wlan0wds0'. This list should include all
|
|
# interface that are used for connections to other APs. This could include
|
|
# wired interfaces and WDS links. The normal wireless data interface towards
|
|
# associated stations (e.g., wlan0) should not be added, since
|
|
# pre-authentication is only used with APs other than the currently associated
|
|
# one.
|
|
#rsn_preauth_interfaces=eth0
|
|
|
|
# peerkey: Whether PeerKey negotiation for direct links (IEEE 802.11e) is
|
|
# allowed. This is only used with RSN/WPA2.
|
|
# 0 = disabled (default)
|
|
# 1 = enabled
|
|
#peerkey=1
|
|
|
|
# ieee80211w: Whether management frame protection (MFP) is enabled
|
|
# 0 = disabled (default)
|
|
# 1 = optional
|
|
# 2 = required
|
|
#ieee80211w=0
|
|
|
|
# Association ping timeout (in TU = 1.024 ms; for MFP)
|
|
# dot11AssociationPingResponseTimeout, 1...4294967295
|
|
#assoc_ping_timeout=1000
|
|
|
|
# Maximum number of association pings
|
|
# dot11AssociationMaximumPingAttempts , 1...255
|
|
#assoc_ping_attempts=3
|
|
|
|
|
|
# okc: Opportunistic Key Caching (aka Proactive Key Caching)
|
|
# Allow PMK cache to be shared opportunistically among configured interfaces
|
|
# and BSSes (i.e., all configurations within a single hostapd process).
|
|
# 0 = disabled (default)
|
|
# 1 = enabled
|
|
#okc=1
|
|
|
|
|
|
##### IEEE 802.11r configuration ##############################################
|
|
|
|
# Mobility Domain identifier (dot11FTMobilityDomainID, MDID)
|
|
# MDID is used to indicate a group of APs (within an ESS, i.e., sharing the
|
|
# same SSID) between which a STA can use Fast BSS Transition.
|
|
# 2-octet identifier as a hex string.
|
|
#mobility_domain=a1b2
|
|
|
|
# PMK-R0 Key Holder identifier (dot11FTR0KeyHolderID)
|
|
# 1 to 48 octet identifier.
|
|
# This is configured with nas_identifier (see RADIUS client section above).
|
|
|
|
# Default lifetime of the PMK-RO in minutes; range 1..65535
|
|
# (dot11FTR0KeyLifetime)
|
|
#r0_key_lifetime=10000
|
|
|
|
# PMK-R1 Key Holder identifier (dot11FTR1KeyHolderID)
|
|
# 6-octet identifier as a hex string.
|
|
#r1_key_holder=000102030405
|
|
|
|
# Reassociation deadline in time units (TUs / 1.024 ms; range 1000..65535)
|
|
# (dot11FTReassociationDeadline)
|
|
#reassociation_deadline=1000
|
|
|
|
# List of R0KHs in the same Mobility Domain
|
|
# format: <MAC address> <NAS Identifier> <128-bit key as hex string>
|
|
# This list is used to map R0KH-ID (NAS Identifier) to a destination MAC
|
|
# address when requesting PMK-R1 key from the R0KH that the STA used during the
|
|
# Initial Mobility Domain Association.
|
|
#r0kh=02:01:02:03:04:05 r0kh-1.example.com 000102030405060708090a0b0c0d0e0f
|
|
#r0kh=02:01:02:03:04:06 r0kh-2.example.com 00112233445566778899aabbccddeeff
|
|
# And so on.. One line per R0KH.
|
|
|
|
# List of R1KHs in the same Mobility Domain
|
|
# format: <MAC address> <R0KH-ID> <128-bit key as hex string>
|
|
# This list is used to map R1KH-ID to a destination MAC address when sending
|
|
# PMK-R1 key from the R0KH. This is also the list of authorized R1KHs in the MD
|
|
# that can request PMK-R1 keys.
|
|
#r1kh=02:01:02:03:04:05 02:11:22:33:44:55 000102030405060708090a0b0c0d0e0f
|
|
#r1kh=02:01:02:03:04:06 02:11:22:33:44:66 00112233445566778899aabbccddeeff
|
|
# And so on.. One line per R1KH.
|
|
|
|
# Whether PMK-R1 push is enabled at R0KH
|
|
# 0 = do not push PMK-R1 to all configured R1KHs (default)
|
|
# 1 = push PMK-R1 to all configured R1KHs whenever a new PMK-R0 is derived
|
|
#pmk_r1_push=1
|
|
|
|
##### Passive scanning ########################################################
|
|
# Scan different channels every N seconds. 0 = disable passive scanning.
|
|
#passive_scan_interval=60
|
|
|
|
# Listen N usecs on each channel when doing passive scanning.
|
|
# This value plus the time needed for changing channels should be less than
|
|
# 32 milliseconds (i.e. 32000 usec) to avoid interruptions to normal
|
|
# operations. Time needed for channel changing varies based on the used wlan
|
|
# hardware.
|
|
# default: disabled (0)
|
|
#passive_scan_listen=10000
|
|
|
|
# Passive scanning mode:
|
|
# 0 = scan all supported modes (802.11a/b/g/Turbo) (default)
|
|
# 1 = scan only the mode that is currently used for normal operations
|
|
#passive_scan_mode=1
|
|
|
|
# Maximum number of entries kept in AP table (either for passive scanning or
|
|
# for detecting Overlapping Legacy BSS Condition). The oldest entry will be
|
|
# removed when adding a new entry that would make the list grow over this
|
|
# limit. Note! Wi-Fi certification for IEEE 802.11g requires that OLBC is
|
|
# enabled, so this field should not be set to 0 when using IEEE 802.11g.
|
|
# default: 255
|
|
#ap_table_max_size=255
|
|
|
|
# Number of seconds of no frames received after which entries may be deleted
|
|
# from the AP table. Since passive scanning is not usually performed frequently
|
|
# this should not be set to very small value. In addition, there is no
|
|
# guarantee that every scan cycle will receive beacon frames from the
|
|
# neighboring APs.
|
|
# default: 60
|
|
#ap_table_expiration_time=3600
|
|
|
|
|
|
##### Multiple BSSID support ##################################################
|
|
#
|
|
# Above configuration is using the default interface (wlan#, or multi-SSID VLAN
|
|
# interfaces). Other BSSIDs can be added by using separator 'bss' with
|
|
# default interface name to be allocated for the data packets of the new BSS.
|
|
#
|
|
# hostapd will generate BSSID mask based on the BSSIDs that are
|
|
# configured. hostapd will verify that dev_addr & MASK == dev_addr. If this is
|
|
# not the case, the MAC address of the radio must be changed before starting
|
|
# hostapd (ifconfig wlan0 hw ether <MAC addr>).
|
|
#
|
|
# BSSIDs are assigned in order to each BSS, unless an explicit BSSID is
|
|
# specified using the 'bssid' parameter.
|
|
# If an explicit BSSID is specified, it must be chosen such that it:
|
|
# - results in a valid MASK that covers it and the dev_addr
|
|
# - is not the same as the MAC address of the radio
|
|
# - is not the same as any other explicitly specified BSSID
|
|
#
|
|
# Please note that hostapd uses some of the values configured for the first BSS
|
|
# as the defaults for the following BSSes. However, it is recommended that all
|
|
# BSSes include explicit configuration of all relevant configuration items.
|
|
#
|
|
#bss=wlan0_0
|
|
#ssid=test2
|
|
# most of the above items can be used here (apart from radio interface specific
|
|
# items, like channel)
|
|
|
|
#bss=wlan0_1
|
|
#bssid=00:13:10:95:fe:0b
|
|
# ...
|