2925756575
The optional -G<group> command line argument can be used to specify the group that can access the global control interface. Signed-hostap: Jouni Malinen <j@w1.fi>
951 lines
34 KiB
Text
951 lines
34 KiB
Text
WPA Supplicant
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==============
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Copyright (c) 2003-2013, Jouni Malinen <j@w1.fi> and contributors
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All Rights Reserved.
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This program is licensed under the BSD license (the one with
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advertisement clause removed).
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If you are submitting changes to the project, please see CONTRIBUTIONS
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file for more instructions.
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License
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-------
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This software may be distributed, used, and modified under the terms of
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BSD license:
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions are
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met:
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1. Redistributions of source code must retain the above copyright
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notice, this list of conditions and the following disclaimer.
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2. Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in the
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documentation and/or other materials provided with the distribution.
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3. Neither the name(s) of the above-listed copyright holder(s) nor the
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names of its contributors may be used to endorse or promote products
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derived from this software without specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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Features
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--------
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Supported WPA/IEEE 802.11i features:
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- WPA-PSK ("WPA-Personal")
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- WPA with EAP (e.g., with RADIUS authentication server) ("WPA-Enterprise")
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Following authentication methods are supported with an integrate IEEE 802.1X
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Supplicant:
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* EAP-TLS
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* EAP-PEAP/MSCHAPv2 (both PEAPv0 and PEAPv1)
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* EAP-PEAP/TLS (both PEAPv0 and PEAPv1)
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* EAP-PEAP/GTC (both PEAPv0 and PEAPv1)
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* EAP-PEAP/OTP (both PEAPv0 and PEAPv1)
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* EAP-PEAP/MD5-Challenge (both PEAPv0 and PEAPv1)
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* EAP-TTLS/EAP-MD5-Challenge
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* EAP-TTLS/EAP-GTC
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* EAP-TTLS/EAP-OTP
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* EAP-TTLS/EAP-MSCHAPv2
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* EAP-TTLS/EAP-TLS
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* EAP-TTLS/MSCHAPv2
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* EAP-TTLS/MSCHAP
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* EAP-TTLS/PAP
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* EAP-TTLS/CHAP
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* EAP-SIM
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* EAP-AKA
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* EAP-PSK
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* EAP-PAX
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* EAP-SAKE
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* EAP-IKEv2
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* EAP-GPSK
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* LEAP (note: requires special support from the driver for IEEE 802.11
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authentication)
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(following methods are supported, but since they do not generate keying
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material, they cannot be used with WPA or IEEE 802.1X WEP keying)
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* EAP-MD5-Challenge
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* EAP-MSCHAPv2
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* EAP-GTC
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* EAP-OTP
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- key management for CCMP, TKIP, WEP104, WEP40
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- RSN/WPA2 (IEEE 802.11i)
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* pre-authentication
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* PMKSA caching
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Supported TLS/crypto libraries:
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- OpenSSL (default)
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- GnuTLS
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Internal TLS/crypto implementation (optional):
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- can be used in place of an external TLS/crypto library
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- TLSv1
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- X.509 certificate processing
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- PKCS #1
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- ASN.1
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- RSA
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- bignum
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- minimal size (ca. 50 kB binary, parts of which are already needed for WPA;
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TLSv1/X.509/ASN.1/RSA/bignum parts are about 25 kB on x86)
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Requirements
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------------
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Current hardware/software requirements:
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- Linux kernel 2.4.x or 2.6.x with Linux Wireless Extensions v15 or newer
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- FreeBSD 6-CURRENT
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- NetBSD-current
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- Microsoft Windows with WinPcap (at least WinXP, may work with other versions)
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- drivers:
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Linux drivers that support cfg80211/nl80211. Even though there are
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number of driver specific interface included in wpa_supplicant, please
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note that Linux drivers are moving to use generic wireless configuration
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interface driver_nl80211 (-Dnl80211 on wpa_supplicant command line)
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should be the default option to start with before falling back to driver
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specific interface.
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Linux drivers that support WPA/WPA2 configuration with the generic
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Linux wireless extensions (WE-18 or newer). Obsoleted by nl80211.
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In theory, any driver that supports Linux wireless extensions can be
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used with IEEE 802.1X (i.e., not WPA) when using ap_scan=0 option in
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configuration file.
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Wired Ethernet drivers (with ap_scan=0)
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BSD net80211 layer (e.g., Atheros driver)
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At the moment, this is for FreeBSD 6-CURRENT branch and NetBSD-current.
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Windows NDIS
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The current Windows port requires WinPcap (http://winpcap.polito.it/).
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See README-Windows.txt for more information.
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wpa_supplicant was designed to be portable for different drivers and
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operating systems. Hopefully, support for more wlan cards and OSes will be
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added in the future. See developer's documentation
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(http://hostap.epitest.fi/wpa_supplicant/devel/) for more information about the
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design of wpa_supplicant and porting to other drivers. One main goal
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is to add full WPA/WPA2 support to Linux wireless extensions to allow
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new drivers to be supported without having to implement new
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driver-specific interface code in wpa_supplicant.
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Optional libraries for layer2 packet processing:
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- libpcap (tested with 0.7.2, most relatively recent versions assumed to work,
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this is likely to be available with most distributions,
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http://tcpdump.org/)
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- libdnet (tested with v1.4, most versions assumed to work,
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http://libdnet.sourceforge.net/)
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These libraries are _not_ used in the default Linux build. Instead,
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internal Linux specific implementation is used. libpcap/libdnet are
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more portable and they can be used by adding CONFIG_L2_PACKET=pcap into
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.config. They may also be selected automatically for other operating
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systems. In case of Windows builds, WinPcap is used by default
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(CONFIG_L2_PACKET=winpcap).
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Optional libraries for EAP-TLS, EAP-PEAP, and EAP-TTLS:
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- OpenSSL (tested with 0.9.7c and 0.9.7d, and 0.9.8 versions; assumed to
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work with most relatively recent versions; this is likely to be
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available with most distributions, http://www.openssl.org/)
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- GnuTLS
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- internal TLSv1 implementation
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TLS options for EAP-FAST:
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- OpenSSL 0.9.8d _with_ openssl-0.9.8d-tls-extensions.patch applied
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(i.e., the default OpenSSL package does not include support for
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extensions needed for EAP-FAST)
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- internal TLSv1 implementation
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One of these libraries is needed when EAP-TLS, EAP-PEAP, EAP-TTLS, or
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EAP-FAST support is enabled. WPA-PSK mode does not require this or EAPOL/EAP
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implementation. A configuration file, .config, for compilation is
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needed to enable IEEE 802.1X/EAPOL and EAP methods. Note that EAP-MD5,
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EAP-GTC, EAP-OTP, and EAP-MSCHAPV2 cannot be used alone with WPA, so
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they should only be enabled if testing the EAPOL/EAP state
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machines. However, there can be used as inner authentication
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algorithms with EAP-PEAP and EAP-TTLS.
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See Building and installing section below for more detailed
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information about the wpa_supplicant build time configuration.
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WPA
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---
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The original security mechanism of IEEE 802.11 standard was not
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designed to be strong and has proven to be insufficient for most
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networks that require some kind of security. Task group I (Security)
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of IEEE 802.11 working group (http://www.ieee802.org/11/) has worked
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to address the flaws of the base standard and has in practice
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completed its work in May 2004. The IEEE 802.11i amendment to the IEEE
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802.11 standard was approved in June 2004 and published in July 2004.
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Wi-Fi Alliance (http://www.wi-fi.org/) used a draft version of the
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IEEE 802.11i work (draft 3.0) to define a subset of the security
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enhancements that can be implemented with existing wlan hardware. This
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is called Wi-Fi Protected Access<TM> (WPA). This has now become a
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mandatory component of interoperability testing and certification done
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by Wi-Fi Alliance. Wi-Fi provides information about WPA at its web
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site (http://www.wi-fi.org/OpenSection/protected_access.asp).
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IEEE 802.11 standard defined wired equivalent privacy (WEP) algorithm
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for protecting wireless networks. WEP uses RC4 with 40-bit keys,
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24-bit initialization vector (IV), and CRC32 to protect against packet
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forgery. All these choices have proven to be insufficient: key space is
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too small against current attacks, RC4 key scheduling is insufficient
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(beginning of the pseudorandom stream should be skipped), IV space is
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too small and IV reuse makes attacks easier, there is no replay
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protection, and non-keyed authentication does not protect against bit
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flipping packet data.
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WPA is an intermediate solution for the security issues. It uses
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Temporal Key Integrity Protocol (TKIP) to replace WEP. TKIP is a
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compromise on strong security and possibility to use existing
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hardware. It still uses RC4 for the encryption like WEP, but with
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per-packet RC4 keys. In addition, it implements replay protection,
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keyed packet authentication mechanism (Michael MIC).
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Keys can be managed using two different mechanisms. WPA can either use
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an external authentication server (e.g., RADIUS) and EAP just like
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IEEE 802.1X is using or pre-shared keys without need for additional
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servers. Wi-Fi calls these "WPA-Enterprise" and "WPA-Personal",
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respectively. Both mechanisms will generate a master session key for
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the Authenticator (AP) and Supplicant (client station).
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WPA implements a new key handshake (4-Way Handshake and Group Key
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Handshake) for generating and exchanging data encryption keys between
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the Authenticator and Supplicant. This handshake is also used to
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verify that both Authenticator and Supplicant know the master session
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key. These handshakes are identical regardless of the selected key
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management mechanism (only the method for generating master session
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key changes).
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IEEE 802.11i / WPA2
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-------------------
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The design for parts of IEEE 802.11i that were not included in WPA has
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finished (May 2004) and this amendment to IEEE 802.11 was approved in
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June 2004. Wi-Fi Alliance is using the final IEEE 802.11i as a new
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version of WPA called WPA2. This includes, e.g., support for more
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robust encryption algorithm (CCMP: AES in Counter mode with CBC-MAC)
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to replace TKIP and optimizations for handoff (reduced number of
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messages in initial key handshake, pre-authentication, and PMKSA caching).
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wpa_supplicant
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--------------
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wpa_supplicant is an implementation of the WPA Supplicant component,
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i.e., the part that runs in the client stations. It implements WPA key
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negotiation with a WPA Authenticator and EAP authentication with
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Authentication Server. In addition, it controls the roaming and IEEE
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802.11 authentication/association of the wlan driver.
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wpa_supplicant is designed to be a "daemon" program that runs in the
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background and acts as the backend component controlling the wireless
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connection. wpa_supplicant supports separate frontend programs and an
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example text-based frontend, wpa_cli, is included with wpa_supplicant.
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Following steps are used when associating with an AP using WPA:
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- wpa_supplicant requests the kernel driver to scan neighboring BSSes
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- wpa_supplicant selects a BSS based on its configuration
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- wpa_supplicant requests the kernel driver to associate with the chosen
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BSS
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- If WPA-EAP: integrated IEEE 802.1X Supplicant completes EAP
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authentication with the authentication server (proxied by the
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Authenticator in the AP)
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- If WPA-EAP: master key is received from the IEEE 802.1X Supplicant
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- If WPA-PSK: wpa_supplicant uses PSK as the master session key
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- wpa_supplicant completes WPA 4-Way Handshake and Group Key Handshake
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with the Authenticator (AP)
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- wpa_supplicant configures encryption keys for unicast and broadcast
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- normal data packets can be transmitted and received
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Building and installing
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-----------------------
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In order to be able to build wpa_supplicant, you will first need to
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select which parts of it will be included. This is done by creating a
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build time configuration file, .config, in the wpa_supplicant root
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directory. Configuration options are text lines using following
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format: CONFIG_<option>=y. Lines starting with # are considered
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comments and are ignored. See defconfig file for an example configuration
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and a list of available options and additional notes.
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The build time configuration can be used to select only the needed
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features and limit the binary size and requirements for external
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libraries. The main configuration parts are the selection of which
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driver interfaces (e.g., nl80211, wext, ..) and which authentication
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methods (e.g., EAP-TLS, EAP-PEAP, ..) are included.
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Following build time configuration options are used to control IEEE
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802.1X/EAPOL and EAP state machines and all EAP methods. Including
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TLS, PEAP, or TTLS will require linking wpa_supplicant with OpenSSL
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library for TLS implementation. Alternatively, GnuTLS or the internal
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TLSv1 implementation can be used for TLS functionaly.
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CONFIG_IEEE8021X_EAPOL=y
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CONFIG_EAP_MD5=y
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CONFIG_EAP_MSCHAPV2=y
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CONFIG_EAP_TLS=y
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CONFIG_EAP_PEAP=y
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CONFIG_EAP_TTLS=y
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CONFIG_EAP_GTC=y
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CONFIG_EAP_OTP=y
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CONFIG_EAP_SIM=y
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CONFIG_EAP_AKA=y
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CONFIG_EAP_PSK=y
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CONFIG_EAP_SAKE=y
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CONFIG_EAP_GPSK=y
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CONFIG_EAP_PAX=y
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CONFIG_EAP_LEAP=y
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CONFIG_EAP_IKEV2=y
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Following option can be used to include GSM SIM/USIM interface for GSM/UMTS
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authentication algorithm (for EAP-SIM/EAP-AKA). This requires pcsc-lite
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(http://www.linuxnet.com/) for smart card access.
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CONFIG_PCSC=y
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Following options can be added to .config to select which driver
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interfaces are included.
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CONFIG_DRIVER_NL80211=y
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CONFIG_DRIVER_WEXT=y
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CONFIG_DRIVER_BSD=y
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CONFIG_DRIVER_NDIS=y
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Following example includes some more features and driver interfaces that
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are included in the wpa_supplicant package:
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CONFIG_DRIVER_NL80211=y
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CONFIG_DRIVER_WEXT=y
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CONFIG_DRIVER_BSD=y
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CONFIG_DRIVER_NDIS=y
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CONFIG_IEEE8021X_EAPOL=y
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CONFIG_EAP_MD5=y
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CONFIG_EAP_MSCHAPV2=y
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CONFIG_EAP_TLS=y
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CONFIG_EAP_PEAP=y
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CONFIG_EAP_TTLS=y
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CONFIG_EAP_GTC=y
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CONFIG_EAP_OTP=y
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CONFIG_EAP_SIM=y
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CONFIG_EAP_AKA=y
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CONFIG_EAP_PSK=y
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CONFIG_EAP_SAKE=y
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CONFIG_EAP_GPSK=y
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CONFIG_EAP_PAX=y
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CONFIG_EAP_LEAP=y
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CONFIG_EAP_IKEV2=y
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CONFIG_PCSC=y
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EAP-PEAP and EAP-TTLS will automatically include configured EAP
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methods (MD5, OTP, GTC, MSCHAPV2) for inner authentication selection.
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After you have created a configuration file, you can build
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wpa_supplicant and wpa_cli with 'make' command. You may then install
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the binaries to a suitable system directory, e.g., /usr/local/bin.
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Example commands:
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# build wpa_supplicant and wpa_cli
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make
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# install binaries (this may need root privileges)
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cp wpa_cli wpa_supplicant /usr/local/bin
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You will need to make a configuration file, e.g.,
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/etc/wpa_supplicant.conf, with network configuration for the networks
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you are going to use. Configuration file section below includes
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explanation fo the configuration file format and includes various
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examples. Once the configuration is ready, you can test whether the
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configuration work by first running wpa_supplicant with following
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command to start it on foreground with debugging enabled:
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wpa_supplicant -iwlan0 -c/etc/wpa_supplicant.conf -d
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Assuming everything goes fine, you can start using following command
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to start wpa_supplicant on background without debugging:
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wpa_supplicant -iwlan0 -c/etc/wpa_supplicant.conf -B
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Please note that if you included more than one driver interface in the
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build time configuration (.config), you may need to specify which
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interface to use by including -D<driver name> option on the command
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line. See following section for more details on command line options
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for wpa_supplicant.
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Command line options
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--------------------
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usage:
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wpa_supplicant [-BddfhKLqqtuvwW] [-P<pid file>] [-g<global ctrl>] \
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[-G<group>] \
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-i<ifname> -c<config file> [-C<ctrl>] [-D<driver>] [-p<driver_param>] \
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[-b<br_ifname> [-N -i<ifname> -c<conf> [-C<ctrl>] [-D<driver>] \
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[-p<driver_param>] [-b<br_ifname>] ...]
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options:
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-b = optional bridge interface name
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-B = run daemon in the background
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-c = Configuration file
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-C = ctrl_interface parameter (only used if -c is not)
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-i = interface name
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-d = increase debugging verbosity (-dd even more)
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-D = driver name (can be multiple drivers: nl80211,wext)
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-f = Log output to default log location (normally /tmp)
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-g = global ctrl_interface
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-G = global ctrl_interface group
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-K = include keys (passwords, etc.) in debug output
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-t = include timestamp in debug messages
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-h = show this help text
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-L = show license (BSD)
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-p = driver parameters
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-P = PID file
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-q = decrease debugging verbosity (-qq even less)
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-u = enable DBus control interface
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-v = show version
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-w = wait for interface to be added, if needed
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-W = wait for a control interface monitor before starting
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-N = start describing new interface
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drivers:
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nl80211 = Linux nl80211/cfg80211
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wext = Linux wireless extensions (generic)
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wired = wpa_supplicant wired Ethernet driver
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roboswitch = wpa_supplicant Broadcom switch driver
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bsd = BSD 802.11 support (Atheros, etc.)
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ndis = Windows NDIS driver
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In most common cases, wpa_supplicant is started with
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wpa_supplicant -B -c/etc/wpa_supplicant.conf -iwlan0
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This makes the process fork into background.
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The easiest way to debug problems, and to get debug log for bug
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reports, is to start wpa_supplicant on foreground with debugging
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enabled:
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wpa_supplicant -c/etc/wpa_supplicant.conf -iwlan0 -d
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If the specific driver wrapper is not known beforehand, it is possible
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to specify multiple comma separated driver wrappers on the command
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line. wpa_supplicant will use the first driver wrapper that is able to
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initialize the interface.
|
|
|
|
wpa_supplicant -Dnl80211,wext -c/etc/wpa_supplicant.conf -iwlan0
|
|
|
|
|
|
wpa_supplicant can control multiple interfaces (radios) either by
|
|
running one process for each interface separately or by running just
|
|
one process and list of options at command line. Each interface is
|
|
separated with -N argument. As an example, following command would
|
|
start wpa_supplicant for two interfaces:
|
|
|
|
wpa_supplicant \
|
|
-c wpa1.conf -i wlan0 -D nl80211 -N \
|
|
-c wpa2.conf -i wlan1 -D wext
|
|
|
|
|
|
If the interface is added in a Linux bridge (e.g., br0), the bridge
|
|
interface needs to be configured to wpa_supplicant in addition to the
|
|
main interface:
|
|
|
|
wpa_supplicant -cw.conf -Dnl80211 -iwlan0 -bbr0
|
|
|
|
|
|
Configuration file
|
|
------------------
|
|
|
|
wpa_supplicant is configured using a text file that lists all accepted
|
|
networks and security policies, including pre-shared keys. See
|
|
example configuration file, wpa_supplicant.conf, for detailed
|
|
information about the configuration format and supported fields.
|
|
|
|
Changes to configuration file can be reloaded be sending SIGHUP signal
|
|
to wpa_supplicant ('killall -HUP wpa_supplicant'). Similarly,
|
|
reloading can be triggered with 'wpa_cli reconfigure' command.
|
|
|
|
Configuration file can include one or more network blocks, e.g., one
|
|
for each used SSID. wpa_supplicant will automatically select the best
|
|
betwork based on the order of network blocks in the configuration
|
|
file, network security level (WPA/WPA2 is preferred), and signal
|
|
strength.
|
|
|
|
Example configuration files for some common configurations:
|
|
|
|
1) WPA-Personal (PSK) as home network and WPA-Enterprise with EAP-TLS as work
|
|
network
|
|
|
|
# allow frontend (e.g., wpa_cli) to be used by all users in 'wheel' group
|
|
ctrl_interface=/var/run/wpa_supplicant
|
|
ctrl_interface_group=wheel
|
|
#
|
|
# home network; allow all valid ciphers
|
|
network={
|
|
ssid="home"
|
|
scan_ssid=1
|
|
key_mgmt=WPA-PSK
|
|
psk="very secret passphrase"
|
|
}
|
|
#
|
|
# work network; use EAP-TLS with WPA; allow only CCMP and TKIP ciphers
|
|
network={
|
|
ssid="work"
|
|
scan_ssid=1
|
|
key_mgmt=WPA-EAP
|
|
pairwise=CCMP TKIP
|
|
group=CCMP TKIP
|
|
eap=TLS
|
|
identity="user@example.com"
|
|
ca_cert="/etc/cert/ca.pem"
|
|
client_cert="/etc/cert/user.pem"
|
|
private_key="/etc/cert/user.prv"
|
|
private_key_passwd="password"
|
|
}
|
|
|
|
|
|
2) WPA-RADIUS/EAP-PEAP/MSCHAPv2 with RADIUS servers that use old peaplabel
|
|
(e.g., Funk Odyssey and SBR, Meetinghouse Aegis, Interlink RAD-Series)
|
|
|
|
ctrl_interface=/var/run/wpa_supplicant
|
|
ctrl_interface_group=wheel
|
|
network={
|
|
ssid="example"
|
|
scan_ssid=1
|
|
key_mgmt=WPA-EAP
|
|
eap=PEAP
|
|
identity="user@example.com"
|
|
password="foobar"
|
|
ca_cert="/etc/cert/ca.pem"
|
|
phase1="peaplabel=0"
|
|
phase2="auth=MSCHAPV2"
|
|
}
|
|
|
|
|
|
3) EAP-TTLS/EAP-MD5-Challenge configuration with anonymous identity for the
|
|
unencrypted use. Real identity is sent only within an encrypted TLS tunnel.
|
|
|
|
ctrl_interface=/var/run/wpa_supplicant
|
|
ctrl_interface_group=wheel
|
|
network={
|
|
ssid="example"
|
|
scan_ssid=1
|
|
key_mgmt=WPA-EAP
|
|
eap=TTLS
|
|
identity="user@example.com"
|
|
anonymous_identity="anonymous@example.com"
|
|
password="foobar"
|
|
ca_cert="/etc/cert/ca.pem"
|
|
phase2="auth=MD5"
|
|
}
|
|
|
|
|
|
4) IEEE 802.1X (i.e., no WPA) with dynamic WEP keys (require both unicast and
|
|
broadcast); use EAP-TLS for authentication
|
|
|
|
ctrl_interface=/var/run/wpa_supplicant
|
|
ctrl_interface_group=wheel
|
|
network={
|
|
ssid="1x-test"
|
|
scan_ssid=1
|
|
key_mgmt=IEEE8021X
|
|
eap=TLS
|
|
identity="user@example.com"
|
|
ca_cert="/etc/cert/ca.pem"
|
|
client_cert="/etc/cert/user.pem"
|
|
private_key="/etc/cert/user.prv"
|
|
private_key_passwd="password"
|
|
eapol_flags=3
|
|
}
|
|
|
|
|
|
5) Catch all example that allows more or less all configuration modes. The
|
|
configuration options are used based on what security policy is used in the
|
|
selected SSID. This is mostly for testing and is not recommended for normal
|
|
use.
|
|
|
|
ctrl_interface=/var/run/wpa_supplicant
|
|
ctrl_interface_group=wheel
|
|
network={
|
|
ssid="example"
|
|
scan_ssid=1
|
|
key_mgmt=WPA-EAP WPA-PSK IEEE8021X NONE
|
|
pairwise=CCMP TKIP
|
|
group=CCMP TKIP WEP104 WEP40
|
|
psk="very secret passphrase"
|
|
eap=TTLS PEAP TLS
|
|
identity="user@example.com"
|
|
password="foobar"
|
|
ca_cert="/etc/cert/ca.pem"
|
|
client_cert="/etc/cert/user.pem"
|
|
private_key="/etc/cert/user.prv"
|
|
private_key_passwd="password"
|
|
phase1="peaplabel=0"
|
|
ca_cert2="/etc/cert/ca2.pem"
|
|
client_cert2="/etc/cer/user.pem"
|
|
private_key2="/etc/cer/user.prv"
|
|
private_key2_passwd="password"
|
|
}
|
|
|
|
|
|
6) Authentication for wired Ethernet. This can be used with 'wired' or
|
|
'roboswitch' interface (-Dwired or -Droboswitch on command line).
|
|
|
|
ctrl_interface=/var/run/wpa_supplicant
|
|
ctrl_interface_group=wheel
|
|
ap_scan=0
|
|
network={
|
|
key_mgmt=IEEE8021X
|
|
eap=MD5
|
|
identity="user"
|
|
password="password"
|
|
eapol_flags=0
|
|
}
|
|
|
|
|
|
|
|
Certificates
|
|
------------
|
|
|
|
Some EAP authentication methods require use of certificates. EAP-TLS
|
|
uses both server side and client certificates whereas EAP-PEAP and
|
|
EAP-TTLS only require the server side certificate. When client
|
|
certificate is used, a matching private key file has to also be
|
|
included in configuration. If the private key uses a passphrase, this
|
|
has to be configured in wpa_supplicant.conf ("private_key_passwd").
|
|
|
|
wpa_supplicant supports X.509 certificates in PEM and DER
|
|
formats. User certificate and private key can be included in the same
|
|
file.
|
|
|
|
If the user certificate and private key is received in PKCS#12/PFX
|
|
format, they need to be converted to suitable PEM/DER format for
|
|
wpa_supplicant. This can be done, e.g., with following commands:
|
|
|
|
# convert client certificate and private key to PEM format
|
|
openssl pkcs12 -in example.pfx -out user.pem -clcerts
|
|
# convert CA certificate (if included in PFX file) to PEM format
|
|
openssl pkcs12 -in example.pfx -out ca.pem -cacerts -nokeys
|
|
|
|
|
|
|
|
wpa_cli
|
|
-------
|
|
|
|
wpa_cli is a text-based frontend program for interacting with
|
|
wpa_supplicant. It is used to query current status, change
|
|
configuration, trigger events, and request interactive user input.
|
|
|
|
wpa_cli can show the current authentication status, selected security
|
|
mode, dot11 and dot1x MIBs, etc. In addition, it can configure some
|
|
variables like EAPOL state machine parameters and trigger events like
|
|
reassociation and IEEE 802.1X logoff/logon. wpa_cli provides a user
|
|
interface to request authentication information, like username and
|
|
password, if these are not included in the configuration. This can be
|
|
used to implement, e.g., one-time-passwords or generic token card
|
|
authentication where the authentication is based on a
|
|
challenge-response that uses an external device for generating the
|
|
response.
|
|
|
|
The control interface of wpa_supplicant can be configured to allow
|
|
non-root user access (ctrl_interface_group in the configuration
|
|
file). This makes it possible to run wpa_cli with a normal user
|
|
account.
|
|
|
|
wpa_cli supports two modes: interactive and command line. Both modes
|
|
share the same command set and the main difference is in interactive
|
|
mode providing access to unsolicited messages (event messages,
|
|
username/password requests).
|
|
|
|
Interactive mode is started when wpa_cli is executed without including
|
|
the command as a command line parameter. Commands are then entered on
|
|
the wpa_cli prompt. In command line mode, the same commands are
|
|
entered as command line arguments for wpa_cli.
|
|
|
|
|
|
Interactive authentication parameters request
|
|
|
|
When wpa_supplicant need authentication parameters, like username and
|
|
password, which are not present in the configuration file, it sends a
|
|
request message to all attached frontend programs, e.g., wpa_cli in
|
|
interactive mode. wpa_cli shows these requests with
|
|
"CTRL-REQ-<type>-<id>:<text>" prefix. <type> is IDENTITY, PASSWORD, or
|
|
OTP (one-time-password). <id> is a unique identifier for the current
|
|
network. <text> is description of the request. In case of OTP request,
|
|
it includes the challenge from the authentication server.
|
|
|
|
The reply to these requests can be given with 'identity', 'password',
|
|
and 'otp' commands. <id> needs to be copied from the the matching
|
|
request. 'password' and 'otp' commands can be used regardless of
|
|
whether the request was for PASSWORD or OTP. The main difference
|
|
between these two commands is that values given with 'password' are
|
|
remembered as long as wpa_supplicant is running whereas values given
|
|
with 'otp' are used only once and then forgotten, i.e., wpa_supplicant
|
|
will ask frontend for a new value for every use. This can be used to
|
|
implement one-time-password lists and generic token card -based
|
|
authentication.
|
|
|
|
Example request for password and a matching reply:
|
|
|
|
CTRL-REQ-PASSWORD-1:Password needed for SSID foobar
|
|
> password 1 mysecretpassword
|
|
|
|
Example request for generic token card challenge-response:
|
|
|
|
CTRL-REQ-OTP-2:Challenge 1235663 needed for SSID foobar
|
|
> otp 2 9876
|
|
|
|
|
|
wpa_cli commands
|
|
|
|
status = get current WPA/EAPOL/EAP status
|
|
mib = get MIB variables (dot1x, dot11)
|
|
help = show this usage help
|
|
interface [ifname] = show interfaces/select interface
|
|
level <debug level> = change debug level
|
|
license = show full wpa_cli license
|
|
logoff = IEEE 802.1X EAPOL state machine logoff
|
|
logon = IEEE 802.1X EAPOL state machine logon
|
|
set = set variables (shows list of variables when run without arguments)
|
|
pmksa = show PMKSA cache
|
|
reassociate = force reassociation
|
|
reconfigure = force wpa_supplicant to re-read its configuration file
|
|
preauthenticate <BSSID> = force preauthentication
|
|
identity <network id> <identity> = configure identity for an SSID
|
|
password <network id> <password> = configure password for an SSID
|
|
pin <network id> <pin> = configure pin for an SSID
|
|
otp <network id> <password> = configure one-time-password for an SSID
|
|
passphrase <network id> <passphrase> = configure private key passphrase
|
|
for an SSID
|
|
bssid <network id> <BSSID> = set preferred BSSID for an SSID
|
|
list_networks = list configured networks
|
|
select_network <network id> = select a network (disable others)
|
|
enable_network <network id> = enable a network
|
|
disable_network <network id> = disable a network
|
|
add_network = add a network
|
|
remove_network <network id> = remove a network
|
|
set_network <network id> <variable> <value> = set network variables (shows
|
|
list of variables when run without arguments)
|
|
get_network <network id> <variable> = get network variables
|
|
save_config = save the current configuration
|
|
disconnect = disconnect and wait for reassociate command before connecting
|
|
scan = request new BSS scan
|
|
scan_results = get latest scan results
|
|
get_capability <eap/pairwise/group/key_mgmt/proto/auth_alg> = get capabilies
|
|
terminate = terminate wpa_supplicant
|
|
quit = exit wpa_cli
|
|
|
|
|
|
wpa_cli command line options
|
|
|
|
wpa_cli [-p<path to ctrl sockets>] [-i<ifname>] [-hvB] [-a<action file>] \
|
|
[-P<pid file>] [-g<global ctrl>] [command..]
|
|
-h = help (show this usage text)
|
|
-v = shown version information
|
|
-a = run in daemon mode executing the action file based on events from
|
|
wpa_supplicant
|
|
-B = run a daemon in the background
|
|
default path: /var/run/wpa_supplicant
|
|
default interface: first interface found in socket path
|
|
|
|
|
|
Using wpa_cli to run external program on connect/disconnect
|
|
-----------------------------------------------------------
|
|
|
|
wpa_cli can used to run external programs whenever wpa_supplicant
|
|
connects or disconnects from a network. This can be used, e.g., to
|
|
update network configuration and/or trigget DHCP client to update IP
|
|
addresses, etc.
|
|
|
|
One wpa_cli process in "action" mode needs to be started for each
|
|
interface. For example, the following command starts wpa_cli for the
|
|
default ingterface (-i can be used to select the interface in case of
|
|
more than one interface being used at the same time):
|
|
|
|
wpa_cli -a/sbin/wpa_action.sh -B
|
|
|
|
The action file (-a option, /sbin/wpa_action.sh in this example) will
|
|
be executed whenever wpa_supplicant completes authentication (connect
|
|
event) or detects disconnection). The action script will be called
|
|
with two command line arguments: interface name and event (CONNECTED
|
|
or DISCONNECTED). If the action script needs to get more information
|
|
about the current network, it can use 'wpa_cli status' to query
|
|
wpa_supplicant for more information.
|
|
|
|
Following example can be used as a simple template for an action
|
|
script:
|
|
|
|
#!/bin/sh
|
|
|
|
IFNAME=$1
|
|
CMD=$2
|
|
|
|
if [ "$CMD" = "CONNECTED" ]; then
|
|
SSID=`wpa_cli -i$IFNAME status | grep ^ssid= | cut -f2- -d=`
|
|
# configure network, signal DHCP client, etc.
|
|
fi
|
|
|
|
if [ "$CMD" = "DISCONNECTED" ]; then
|
|
# remove network configuration, if needed
|
|
SSID=
|
|
fi
|
|
|
|
|
|
|
|
Integrating with pcmcia-cs/cardmgr scripts
|
|
------------------------------------------
|
|
|
|
wpa_supplicant needs to be running when using a wireless network with
|
|
WPA. It can be started either from system startup scripts or from
|
|
pcmcia-cs/cardmgr scripts (when using PC Cards). WPA handshake must be
|
|
completed before data frames can be exchanged, so wpa_supplicant
|
|
should be started before DHCP client.
|
|
|
|
For example, following small changes to pcmcia-cs scripts can be used
|
|
to enable WPA support:
|
|
|
|
Add MODE="Managed" and WPA="y" to the network scheme in
|
|
/etc/pcmcia/wireless.opts.
|
|
|
|
Add the following block to the end of 'start' action handler in
|
|
/etc/pcmcia/wireless:
|
|
|
|
if [ "$WPA" = "y" -a -x /usr/local/bin/wpa_supplicant ]; then
|
|
/usr/local/bin/wpa_supplicant -B -c/etc/wpa_supplicant.conf \
|
|
-i$DEVICE
|
|
fi
|
|
|
|
Add the following block to the end of 'stop' action handler (may need
|
|
to be separated from other actions) in /etc/pcmcia/wireless:
|
|
|
|
if [ "$WPA" = "y" -a -x /usr/local/bin/wpa_supplicant ]; then
|
|
killall wpa_supplicant
|
|
fi
|
|
|
|
This will make cardmgr start wpa_supplicant when the card is plugged
|
|
in.
|
|
|
|
|
|
|
|
Dynamic interface add and operation without configuration files
|
|
---------------------------------------------------------------
|
|
|
|
wpa_supplicant can be started without any configuration files or
|
|
network interfaces. When used in this way, a global (i.e., per
|
|
wpa_supplicant process) control interface is used to add and remove
|
|
network interfaces. Each network interface can then be configured
|
|
through a per-network interface control interface. For example,
|
|
following commands show how to start wpa_supplicant without any
|
|
network interfaces and then add a network interface and configure a
|
|
network (SSID):
|
|
|
|
# Start wpa_supplicant in the background
|
|
wpa_supplicant -g/var/run/wpa_supplicant-global -B
|
|
|
|
# Add a new interface (wlan0, no configuration file, driver=nl80211, and
|
|
# enable control interface)
|
|
wpa_cli -g/var/run/wpa_supplicant-global interface_add wlan0 \
|
|
"" nl80211 /var/run/wpa_supplicant
|
|
|
|
# Configure a network using the newly added network interface:
|
|
wpa_cli -iwlan0 add_network
|
|
wpa_cli -iwlan0 set_network 0 ssid '"test"'
|
|
wpa_cli -iwlan0 set_network 0 key_mgmt WPA-PSK
|
|
wpa_cli -iwlan0 set_network 0 psk '"12345678"'
|
|
wpa_cli -iwlan0 set_network 0 pairwise TKIP
|
|
wpa_cli -iwlan0 set_network 0 group TKIP
|
|
wpa_cli -iwlan0 set_network 0 proto WPA
|
|
wpa_cli -iwlan0 enable_network 0
|
|
|
|
# At this point, the new network interface should start trying to associate
|
|
# with the WPA-PSK network using SSID test.
|
|
|
|
# Remove network interface
|
|
wpa_cli -g/var/run/wpa_supplicant-global interface_remove wlan0
|
|
|
|
|
|
Privilege separation
|
|
--------------------
|
|
|
|
To minimize the size of code that needs to be run with root privileges
|
|
(e.g., to control wireless interface operation), wpa_supplicant
|
|
supports optional privilege separation. If enabled, this separates the
|
|
privileged operations into a separate process (wpa_priv) while leaving
|
|
rest of the code (e.g., EAP authentication and WPA handshakes) into an
|
|
unprivileged process (wpa_supplicant) that can be run as non-root
|
|
user. Privilege separation restricts the effects of potential software
|
|
errors by containing the majority of the code in an unprivileged
|
|
process to avoid full system compromise.
|
|
|
|
Privilege separation is not enabled by default and it can be enabled
|
|
by adding CONFIG_PRIVSEP=y to the build configuration (.config). When
|
|
enabled, the privileged operations (driver wrapper and l2_packet) are
|
|
linked into a separate daemon program, wpa_priv. The unprivileged
|
|
program, wpa_supplicant, will be built with a special driver/l2_packet
|
|
wrappers that communicate with the privileged wpa_priv process to
|
|
perform the needed operations. wpa_priv can control what privileged
|
|
are allowed.
|
|
|
|
wpa_priv needs to be run with network admin privileges (usually, root
|
|
user). It opens a UNIX domain socket for each interface that is
|
|
included on the command line; any other interface will be off limits
|
|
for wpa_supplicant in this kind of configuration. After this,
|
|
wpa_supplicant can be run as a non-root user (e.g., all standard users
|
|
on a laptop or as a special non-privileged user account created just
|
|
for this purpose to limit access to user files even further).
|
|
|
|
|
|
Example configuration:
|
|
- create user group for users that are allowed to use wpa_supplicant
|
|
('wpapriv' in this example) and assign users that should be able to
|
|
use wpa_supplicant into that group
|
|
- create /var/run/wpa_priv directory for UNIX domain sockets and control
|
|
user access by setting it accessible only for the wpapriv group:
|
|
mkdir /var/run/wpa_priv
|
|
chown root:wpapriv /var/run/wpa_priv
|
|
chmod 0750 /var/run/wpa_priv
|
|
- start wpa_priv as root (e.g., from system startup scripts) with the
|
|
enabled interfaces configured on the command line:
|
|
wpa_priv -B -P /var/run/wpa_priv.pid nl80211:wlan0
|
|
- run wpa_supplicant as non-root with a user that is in wpapriv group:
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wpa_supplicant -i ath0 -c wpa_supplicant.conf
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wpa_priv does not use the network interface before wpa_supplicant is
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|
started, so it is fine to include network interfaces that are not
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|
available at the time wpa_priv is started. As an alternative, wpa_priv
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can be started when an interface is added (hotplug/udev/etc. scripts).
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wpa_priv can control multiple interface with one process, but it is
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|
also possible to run multiple wpa_priv processes at the same time, if
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|
desired.
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