331f89ff5b
Simplify licensing terms for hostap.git by selecting the BSD license alternative for any future distribution. This drops the GPL v2 alternative from distribution terms and from contribution requirements. The BSD license alternative that has been used in hostap.git (the one with advertisement clause removed) is compatible with GPL and as such the software in hostap.git can still be used with GPL projects. In addition, any new contribution to hostap.git is expected to be licensed under the BSD terms that allow the changes to be merged into older hostap repositories that still include the GPL v2 alternative. Signed-hostap: Jouni Malinen <j@w1.fi>
946 lines
34 KiB
Text
946 lines
34 KiB
Text
WPA Supplicant
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==============
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Copyright (c) 2003-2012, 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 WPA/WPA2 configuration with the generic
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Linux wireless extensions (WE-18 or newer). 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 extensions
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and driver_wext (-Dwext on wpa_supplicant command line) should be the
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default option to start with before falling back to driver specific
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interface.
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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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-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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-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 (GPL and 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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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
|
|
line. wpa_supplicant will use the first driver wrapper that is able to
|
|
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 -Dwext -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=wext, and
|
|
# enable control interface)
|
|
wpa_cli -g/var/run/wpa_supplicant-global interface_add wlan0 \
|
|
"" wext /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 wext:ath0
|
|
- 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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