hostap/hostapd/defconfig

243 lines
8.1 KiB
Text

# Example hostapd build time configuration
#
# This file lists the configuration options that are used when building the
# hostapd binary. All lines starting with # are ignored. Configuration option
# lines must be commented out complete, if they are not to be included, i.e.,
# just setting VARIABLE=n is not disabling that variable.
#
# This file is included in Makefile, so variables like CFLAGS and LIBS can also
# be modified from here. In most cass, these lines should use += in order not
# to override previous values of the variables.
# Driver interface for Host AP driver
CONFIG_DRIVER_HOSTAP=y
# Driver interface for wired authenticator
#CONFIG_DRIVER_WIRED=y
# Driver interface for madwifi driver
#CONFIG_DRIVER_MADWIFI=y
#CFLAGS += -I../../madwifi # change to the madwifi source directory
# Driver interface for drivers using the nl80211 kernel interface
CONFIG_DRIVER_NL80211=y
# Driver interface for FreeBSD net80211 layer (e.g., Atheros driver)
#CONFIG_DRIVER_BSD=y
#CFLAGS += -I/usr/local/include
#LIBS += -L/usr/local/lib
#LIBS_p += -L/usr/local/lib
#LIBS_c += -L/usr/local/lib
# Driver interface for no driver (e.g., RADIUS server only)
#CONFIG_DRIVER_NONE=y
# IEEE 802.11F/IAPP
CONFIG_IAPP=y
# WPA2/IEEE 802.11i RSN pre-authentication
CONFIG_RSN_PREAUTH=y
# PeerKey handshake for Station to Station Link (IEEE 802.11e DLS)
CONFIG_PEERKEY=y
# IEEE 802.11w (management frame protection)
# This version is an experimental implementation based on IEEE 802.11w/D1.0
# draft and is subject to change since the standard has not yet been finalized.
# Driver support is also needed for IEEE 802.11w.
#CONFIG_IEEE80211W=y
# Integrated EAP server
CONFIG_EAP=y
# EAP-MD5 for the integrated EAP server
CONFIG_EAP_MD5=y
# EAP-TLS for the integrated EAP server
CONFIG_EAP_TLS=y
# EAP-MSCHAPv2 for the integrated EAP server
CONFIG_EAP_MSCHAPV2=y
# EAP-PEAP for the integrated EAP server
CONFIG_EAP_PEAP=y
# EAP-GTC for the integrated EAP server
CONFIG_EAP_GTC=y
# EAP-TTLS for the integrated EAP server
CONFIG_EAP_TTLS=y
# EAP-SIM for the integrated EAP server
#CONFIG_EAP_SIM=y
# EAP-AKA for the integrated EAP server
#CONFIG_EAP_AKA=y
# EAP-AKA' for the integrated EAP server
# This requires CONFIG_EAP_AKA to be enabled, too.
#CONFIG_EAP_AKA_PRIME=y
# EAP-PAX for the integrated EAP server
#CONFIG_EAP_PAX=y
# EAP-PSK for the integrated EAP server (this is _not_ needed for WPA-PSK)
#CONFIG_EAP_PSK=y
# EAP-SAKE for the integrated EAP server
#CONFIG_EAP_SAKE=y
# EAP-GPSK for the integrated EAP server
#CONFIG_EAP_GPSK=y
# Include support for optional SHA256 cipher suite in EAP-GPSK
#CONFIG_EAP_GPSK_SHA256=y
# EAP-FAST for the integrated EAP server
# Note: Default OpenSSL package does not include support for all the
# functionality needed for EAP-FAST. If EAP-FAST is enabled with OpenSSL,
# the OpenSSL library must be patched (openssl-0.9.9-session-ticket.patch)
# to add the needed functions.
#CONFIG_EAP_FAST=y
# Wi-Fi Protected Setup (WPS)
#CONFIG_WPS=y
# Enable WSC 2.0 support
#CONFIG_WPS2=y
# Enable UPnP support for external WPS Registrars
#CONFIG_WPS_UPNP=y
# EAP-IKEv2
#CONFIG_EAP_IKEV2=y
# Trusted Network Connect (EAP-TNC)
#CONFIG_EAP_TNC=y
# PKCS#12 (PFX) support (used to read private key and certificate file from
# a file that usually has extension .p12 or .pfx)
CONFIG_PKCS12=y
# RADIUS authentication server. This provides access to the integrated EAP
# server from external hosts using RADIUS.
#CONFIG_RADIUS_SERVER=y
# Build IPv6 support for RADIUS operations
CONFIG_IPV6=y
# IEEE Std 802.11r-2008 (Fast BSS Transition)
#CONFIG_IEEE80211R=y
# Use the hostapd's IEEE 802.11 authentication (ACL), but without
# the IEEE 802.11 Management capability (e.g., madwifi or FreeBSD/net80211)
#CONFIG_DRIVER_RADIUS_ACL=y
# IEEE 802.11n (High Throughput) support
#CONFIG_IEEE80211N=y
# Remove debugging code that is printing out debug messages to stdout.
# This can be used to reduce the size of the hostapd considerably if debugging
# code is not needed.
#CONFIG_NO_STDOUT_DEBUG=y
# Add support for writing debug log to a file: -f /tmp/hostapd.log
# Disabled by default.
#CONFIG_DEBUG_FILE=y
# Remove support for RADIUS accounting
#CONFIG_NO_ACCOUNTING=y
# Remove support for RADIUS
#CONFIG_NO_RADIUS=y
# Remove support for VLANs
#CONFIG_NO_VLAN=y
# Enable support for fully dynamic VLANs. This enables hostapd to
# automatically create bridge and VLAN interfaces if necessary.
#CONFIG_FULL_DYNAMIC_VLAN=y
# Remove support for dumping state into a file on SIGUSR1 signal
# This can be used to reduce binary size at the cost of disabling a debugging
# option.
#CONFIG_NO_DUMP_STATE=y
# Enable tracing code for developer debugging
# This tracks use of memory allocations and other registrations and reports
# incorrect use with a backtrace of call (or allocation) location.
#CONFIG_WPA_TRACE=y
# For BSD, comment out these.
#LIBS += -lexecinfo
#LIBS_p += -lexecinfo
#LIBS_c += -lexecinfo
# Use libbfd to get more details for developer debugging
# This enables use of libbfd to get more detailed symbols for the backtraces
# generated by CONFIG_WPA_TRACE=y.
#CONFIG_WPA_TRACE_BFD=y
# For BSD, comment out these.
#LIBS += -lbfd -liberty -lz
#LIBS_p += -lbfd -liberty -lz
#LIBS_c += -lbfd -liberty -lz
# hostapd depends on strong random number generation being available from the
# operating system. os_get_random() function is used to fetch random data when
# needed, e.g., for key generation. On Linux and BSD systems, this works by
# reading /dev/urandom. It should be noted that the OS entropy pool needs to be
# properly initialized before hostapd is started. This is important especially
# on embedded devices that do not have a hardware random number generator and
# may by default start up with minimal entropy available for random number
# generation.
#
# As a safety net, hostapd is by default trying to internally collect
# additional entropy for generating random data to mix in with the data
# fetched from the OS. This by itself is not considered to be very strong, but
# it may help in cases where the system pool is not initialized properly.
# However, it is very strongly recommended that the system pool is initialized
# with enough entropy either by using hardware assisted random number
# generator or by storing state over device reboots.
#
# hostapd can be configured to maintain its own entropy store over restarts to
# enhance random number generation. This is not perfect, but it is much more
# secure than using the same sequence of random numbers after every reboot.
# This can be enabled with -e<entropy file> command line option. The specified
# file needs to be readable and writable by hostapd.
#
# If the os_get_random() is known to provide strong random data (e.g., on
# Linux/BSD, the board in question is known to have reliable source of random
# data from /dev/urandom), the internal hostapd random pool can be disabled.
# This will save some in binary size and CPU use. However, this should only be
# considered for builds that are known to be used on devices that meet the
# requirements described above.
#CONFIG_NO_RANDOM_POOL=y
# Select TLS implementation
# openssl = OpenSSL (default)
# gnutls = GnuTLS
# internal = Internal TLSv1 implementation (experimental)
# none = Empty template
#CONFIG_TLS=openssl
# TLS-based EAP methods require at least TLS v1.0. Newer version of TLS (v1.1)
# can be enabled to get a stronger construction of messages when block ciphers
# are used.
#CONFIG_TLSV11=y
# If CONFIG_TLS=internal is used, additional library and include paths are
# needed for LibTomMath. Alternatively, an integrated, minimal version of
# LibTomMath can be used. See beginning of libtommath.c for details on benefits
# and drawbacks of this option.
#CONFIG_INTERNAL_LIBTOMMATH=y
#ifndef CONFIG_INTERNAL_LIBTOMMATH
#LTM_PATH=/usr/src/libtommath-0.39
#CFLAGS += -I$(LTM_PATH)
#LIBS += -L$(LTM_PATH)
#LIBS_p += -L$(LTM_PATH)
#endif
# At the cost of about 4 kB of additional binary size, the internal LibTomMath
# can be configured to include faster routines for exptmod, sqr, and div to
# speed up DH and RSA calculation considerably
#CONFIG_INTERNAL_LIBTOMMATH_FAST=y
# Interworking (IEEE 802.11u)
# This can be used to enable functionality to improve interworking with
# external networks.
#CONFIG_INTERWORKING=y