openwrt/package/network/services/hostapd/files/hostapd.sh

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. /lib/functions/network.sh
wpa_supplicant_add_rate() {
local var="$1"
local val="$(($2 / 1000))"
local sub="$((($2 / 100) % 10))"
append $var "$val" ","
[ $sub -gt 0 ] && append $var "."
}
hostapd_add_rate() {
local var="$1"
local val="$(($2 / 100))"
append $var "$val" " "
}
hostapd_append_wep_key() {
local var="$1"
wep_keyidx=0
set_default key 1
case "$key" in
[1234])
for idx in 1 2 3 4; do
local zidx
zidx=$(($idx - 1))
json_get_var ckey "key${idx}"
[ -n "$ckey" ] && \
append $var "wep_key${zidx}=$(prepare_key_wep "$ckey")" "$N$T"
done
wep_keyidx=$((key - 1))
;;
*)
append $var "wep_key0=$(prepare_key_wep "$key")" "$N$T"
;;
esac
}
hostapd_append_wpa_key_mgmt() {
local auth_type_l="$(echo $auth_type | tr 'a-z' 'A-Z')"
case "$auth_type" in
psk|eap)
append wpa_key_mgmt "WPA-$auth_type_l"
[ "${ieee80211r:-0}" -gt 0 ] && append wpa_key_mgmt "FT-${auth_type_l}"
[ "${ieee80211w:-0}" -gt 0 ] && append wpa_key_mgmt "WPA-${auth_type_l}-SHA256"
;;
eap192)
append wpa_key_mgmt "WPA-EAP-SUITE-B-192"
[ "${ieee80211r:-0}" -gt 0 ] && append wpa_key_mgmt "FT-EAP"
;;
eap-eap192)
append wpa_key_mgmt "WPA-EAP-SUITE-B-192"
append wpa_key_mgmt "WPA-EAP"
[ "${ieee80211r:-0}" -gt 0 ] && append wpa_key_mgmt "FT-EAP"
[ "${ieee80211w:-0}" -gt 0 ] && append wpa_key_mgmt "WPA-EAP-SHA256"
;;
sae)
append wpa_key_mgmt "SAE"
[ "${ieee80211r:-0}" -gt 0 ] && append wpa_key_mgmt "FT-SAE"
;;
psk-sae)
append wpa_key_mgmt "WPA-PSK"
[ "${ieee80211r:-0}" -gt 0 ] && append wpa_key_mgmt "FT-PSK"
[ "${ieee80211w:-0}" -gt 0 ] && append wpa_key_mgmt "WPA-PSK-SHA256"
append wpa_key_mgmt "SAE"
[ "${ieee80211r:-0}" -gt 0 ] && append wpa_key_mgmt "FT-SAE"
;;
owe)
append wpa_key_mgmt "OWE"
;;
esac
}
hostapd_add_log_config() {
config_add_boolean \
log_80211 \
log_8021x \
log_radius \
log_wpa \
log_driver \
log_iapp \
log_mlme
config_add_int log_level
}
hostapd_common_add_device_config() {
config_add_array basic_rate
config_add_array supported_rates
config_add_string country
config_add_boolean country_ie doth
config_add_boolean spectrum_mgmt_required
config_add_int local_pwr_constraint
config_add_string require_mode
config_add_boolean legacy_rates
config_add_string acs_chan_bias
config_add_array hostapd_options
hostapd_add_log_config
}
hostapd_prepare_device_config() {
local config="$1"
local driver="$2"
local base="${config%%.conf}"
local base_cfg=
json_get_vars country country_ie beacon_int:100 dtim_period:2 doth require_mode legacy_rates \
acs_chan_bias local_pwr_constraint spectrum_mgmt_required
hostapd_set_log_options base_cfg
set_default country_ie 1
set_default spectrum_mgmt_required 0
set_default doth 1
set_default legacy_rates 1
[ "$hwmode" = "b" ] && legacy_rates=1
[ -n "$country" ] && {
append base_cfg "country_code=$country" "$N"
[ "$country_ie" -gt 0 ] && {
append base_cfg "ieee80211d=1" "$N"
[ -n "$local_pwr_constraint" ] && append base_cfg "local_pwr_constraint=$local_pwr_constraint" "$N"
[ "$spectrum_mgmt_required" -gt 0 ] && append base_cfg "spectrum_mgmt_required=$spectrum_mgmt_required" "$N"
}
[ "$hwmode" = "a" -a "$doth" -gt 0 ] && append base_cfg "ieee80211h=1" "$N"
}
[ -n "$acs_chan_bias" ] && append base_cfg "acs_chan_bias=$acs_chan_bias" "$N"
local brlist= br
json_get_values basic_rate_list basic_rate
local rlist= r
json_get_values rate_list supported_rates
[ -n "$hwmode" ] && append base_cfg "hw_mode=$hwmode" "$N"
[ "$legacy_rates" -eq 0 ] && set_default require_mode g
[ "$hwmode" = "g" ] && {
[ "$legacy_rates" -eq 0 ] && set_default rate_list "6000 9000 12000 18000 24000 36000 48000 54000"
[ -n "$require_mode" ] && set_default basic_rate_list "6000 12000 24000"
}
case "$require_mode" in
n) append base_cfg "require_ht=1" "$N";;
ac) append base_cfg "require_vht=1" "$N";;
esac
for r in $rate_list; do
hostapd_add_rate rlist "$r"
done
for br in $basic_rate_list; do
hostapd_add_rate brlist "$br"
done
[ -n "$rlist" ] && append base_cfg "supported_rates=$rlist" "$N"
[ -n "$brlist" ] && append base_cfg "basic_rates=$brlist" "$N"
append base_cfg "beacon_int=$beacon_int" "$N"
append base_cfg "dtim_period=$dtim_period" "$N"
json_get_values opts hostapd_options
for val in $opts; do
append base_cfg "$val" "$N"
done
cat > "$config" <<EOF
driver=$driver
$base_cfg
EOF
}
hostapd_common_add_bss_config() {
config_add_string 'bssid:macaddr' 'ssid:string'
config_add_boolean wds wmm uapsd hidden utf8_ssid
config_add_int maxassoc max_inactivity
config_add_boolean disassoc_low_ack isolate short_preamble
config_add_int \
wep_rekey eap_reauth_period \
wpa_group_rekey wpa_pair_rekey wpa_master_rekey
config_add_boolean wpa_strict_rekey
config_add_boolean wpa_disable_eapol_key_retries
config_add_boolean tdls_prohibit
config_add_boolean rsn_preauth auth_cache
config_add_int ieee80211w
config_add_int eapol_version
config_add_string 'auth_server:host' 'server:host'
config_add_string auth_secret
config_add_int 'auth_port:port' 'port:port'
config_add_string acct_server
config_add_string acct_secret
config_add_int acct_port
config_add_int acct_interval
config_add_string dae_client
config_add_string dae_secret
config_add_int dae_port
config_add_string nasid
config_add_string ownip
config_add_string radius_client_addr
config_add_string iapp_interface
config_add_string eap_type ca_cert client_cert identity anonymous_identity auth priv_key priv_key_pwd
config_add_boolean ca_cert_usesystem ca_cert2_usesystem
hostapd: add support for subject validation The wpa_supplicant supports certificate subject validation via the subject match(2) and altsubject_match(2) fields. domain_match(2) and domain_suffix_match(2) fields are also supported for advanced matches. This validation is especially important when connecting to access points that use PAP as the Phase 2 authentication type. Without proper validation, the user's password can be transmitted to a rogue access point in plaintext without the user's knowledge. Most organizations already require these attributes to be included to ensure that the connection from the STA and the AP is secure. Includes LuCI changes via openwrt/luci#3444. From the documentation: subject_match - Constraint for server certificate subject. This substring is matched against the subject of the authentication server certificate. If this string is set, the server sertificate is only accepted if it contains this string in the subject. The subject string is in following format: /C=US/ST=CA/L=San Francisco/CN=Test AS/emailAddress=as .example.com subject_match2 - Constraint for server certificate subject. This field is like subject_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. altsubject_match - Constraint for server certificate alt. subject. Semicolon separated string of entries to be matched against the alternative subject name of the authentication server certificate. If this string is set, the server sertificate is only accepted if it contains one of the entries in an alternative subject name extension. altSubjectName string is in following format: TYPE:VALUE Example: EMAIL:server@example.com Example: DNS:server.example.com;DNS:server2.example.com Following types are supported: EMAIL, DNS, URI altsubject_match2 - Constraint for server certificate alt. subject. This field is like altsubject_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. domain_match - Constraint for server domain name. If set, this FQDN is used as a full match requirement for the server certificate in SubjectAltName dNSName element(s). If a matching dNSName is found, this constraint is met. If no dNSName values are present, this constraint is matched against SubjectName CN using same full match comparison. This behavior is similar to domain_suffix_match, but has the requirement of a full match, i.e., no subdomains or wildcard matches are allowed. Case-insensitive comparison is used, so "Example.com" matches "example.com", but would not match "test.Example.com". More than one match string can be provided by using semicolons to separate the strings (e.g., example.org;example.com). When multiple strings are specified, a match with any one of the values is considered a sufficient match for the certificate, i.e., the conditions are ORed together. domain_match2 - Constraint for server domain name. This field is like domain_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. domain_suffix_match - Constraint for server domain name. If set, this FQDN is used as a suffix match requirement for the AAA server certificate in SubjectAltName dNSName element(s). If a matching dNSName is found, this constraint is met. If no dNSName values are present, this constraint is matched against SubjectName CN using same suffix match comparison. Suffix match here means that the host/domain name is compared one label at a time starting from the top-level domain and all the labels in domain_suffix_match shall be included in the certificate. The certificate may include additional sub-level labels in addition to the required labels. More than one match string can be provided by using semicolons to separate the strings (e.g., example.org;example.com). When multiple strings are specified, a match with any one of the values is considered a sufficient match for the certificate, i.e., the conditions are ORed together. For example, domain_suffix_match=example.com would match test.example.com but would not match test-example.com. This field is like domain_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. domain_suffix_match2 - Constraint for server domain name. This field is like domain_suffix_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. Signed-off-by: David Lam <david@thedavid.net>
2020-01-14 08:27:28 +00:00
config_add_string subject_match subject_match2
config_add_array altsubject_match altsubject_match2
config_add_array domain_match domain_match2 domain_suffix_match domain_suffix_match2
config_add_string ieee80211w_mgmt_cipher
config_add_int dynamic_vlan vlan_naming
config_add_string vlan_tagged_interface vlan_bridge
config_add_string vlan_file
config_add_string 'key1:wepkey' 'key2:wepkey' 'key3:wepkey' 'key4:wepkey' 'password:wpakey'
config_add_string wpa_psk_file
config_add_int multi_ap
config_add_boolean wps_pushbutton wps_label ext_registrar wps_pbc_in_m1
config_add_int wps_ap_setup_locked wps_independent
config_add_string wps_device_type wps_device_name wps_manufacturer wps_pin
config_add_string multi_ap_backhaul_ssid multi_ap_backhaul_key
config_add_boolean ieee80211v wnm_sleep_mode bss_transition
config_add_int time_advertisement
config_add_string time_zone
config_add_boolean ieee80211k rrm_neighbor_report rrm_beacon_report
config_add_boolean ieee80211r pmk_r1_push ft_psk_generate_local ft_over_ds
config_add_int r0_key_lifetime reassociation_deadline
config_add_string mobility_domain r1_key_holder
config_add_array r0kh r1kh
config_add_int ieee80211w_max_timeout ieee80211w_retry_timeout
config_add_string macfilter 'macfile:file'
config_add_array 'maclist:list(macaddr)'
hostapd: backport BSSID black/whitelists This change adds the configuration options "bssid_whitelist" and "bssid_blacklist" used to limit the AP selection of a network to a specified (finite) set or discard certain APs. This can be useful for environments where multiple networks operate using the same SSID and roaming between those is not desired. It is also useful to ignore a faulty or otherwise unwanted AP. In many applications it is useful not just to enumerate a group of well known access points, but to use a address/mask notation to match an entire set of addresses (ca:ff:ee:00:00:00/ff:ff:ff:00:00:00). This is especially useful if an OpenWrt device with two radios is used to retransmit the same network (one in AP mode for other clients, one as STA for the uplink); the following configuration prevents the device from associating with itself, given that the own AP to be avoided is using the bssid 'C0:FF:EE:D0:0D:42': config wifi-iface option device 'radio2' option network 'uplink' option mode 'sta' option ssid 'MyNetwork' option encryption 'none' list bssid_blacklist 'C0:FF:EE:D0:0D:42/00:FF:FF:FF:FF:FF' This change consists of the following cherry-picked upstream commits: b3d6a0a8259002448a29f14855d58fe0a624ab76 b83e455451a875ba233b3b8ac29aff8b62f064f2 79cd993a623e101952b81fa6a29c674cd858504f (squashed to implement bssid_{white,black}lists) 0047306bc9ab7d46e8cc22ff9a3e876c47626473 (Add os_snprintf_error() helper) Signed-off-by: Stefan Tomanek <stefan.tomanek+openwrt@wertarbyte.de> SVN-Revision: 44438
2015-02-13 10:53:54 +00:00
config_add_array bssid_blacklist
config_add_array bssid_whitelist
config_add_int mcast_rate
config_add_array basic_rate
config_add_array supported_rates
config_add_boolean sae_require_mfp
config_add_string 'owe_transition_bssid:macaddr' 'owe_transition_ssid:string'
}
hostapd_set_bss_options() {
local var="$1"
local phy="$2"
local vif="$3"
wireless_vif_parse_encryption
local bss_conf bss_md5sum
local wep_rekey wpa_group_rekey wpa_pair_rekey wpa_master_rekey wpa_key_mgmt
json_get_vars \
wep_rekey wpa_group_rekey wpa_pair_rekey wpa_master_rekey wpa_strict_rekey \
wpa_disable_eapol_key_retries tdls_prohibit \
maxassoc max_inactivity disassoc_low_ack isolate auth_cache \
wps_pushbutton wps_label ext_registrar wps_pbc_in_m1 wps_ap_setup_locked \
wps_independent wps_device_type wps_device_name wps_manufacturer wps_pin \
macfilter ssid utf8_ssid wmm uapsd hidden short_preamble rsn_preauth \
iapp_interface eapol_version dynamic_vlan ieee80211w nasid \
acct_server acct_secret acct_port acct_interval \
bss_load_update_period chan_util_avg_period sae_require_mfp \
multi_ap multi_ap_backhaul_ssid multi_ap_backhaul_key
set_default isolate 0
set_default maxassoc 0
set_default max_inactivity 0
set_default short_preamble 1
set_default disassoc_low_ack 1
set_default hidden 0
set_default wmm 1
set_default uapsd 1
set_default wpa_disable_eapol_key_retries 0
set_default tdls_prohibit 0
set_default eapol_version 0
set_default acct_port 1813
set_default bss_load_update_period 60
set_default chan_util_avg_period 600
set_default utf8_ssid 1
set_default multi_ap 0
append bss_conf "ctrl_interface=/var/run/hostapd"
if [ "$isolate" -gt 0 ]; then
append bss_conf "ap_isolate=$isolate" "$N"
fi
if [ "$maxassoc" -gt 0 ]; then
append bss_conf "max_num_sta=$maxassoc" "$N"
fi
if [ "$max_inactivity" -gt 0 ]; then
append bss_conf "ap_max_inactivity=$max_inactivity" "$N"
fi
append bss_conf "bss_load_update_period=$bss_load_update_period" "$N"
append bss_conf "chan_util_avg_period=$chan_util_avg_period" "$N"
append bss_conf "disassoc_low_ack=$disassoc_low_ack" "$N"
append bss_conf "preamble=$short_preamble" "$N"
append bss_conf "wmm_enabled=$wmm" "$N"
append bss_conf "ignore_broadcast_ssid=$hidden" "$N"
append bss_conf "uapsd_advertisement_enabled=$uapsd" "$N"
append bss_conf "utf8_ssid=$utf8_ssid" "$N"
append bss_conf "multi_ap=$multi_ap" "$N"
[ "$tdls_prohibit" -gt 0 ] && append bss_conf "tdls_prohibit=$tdls_prohibit" "$N"
[ "$wpa" -gt 0 ] && {
[ -n "$wpa_group_rekey" ] && append bss_conf "wpa_group_rekey=$wpa_group_rekey" "$N"
[ -n "$wpa_pair_rekey" ] && append bss_conf "wpa_ptk_rekey=$wpa_pair_rekey" "$N"
[ -n "$wpa_master_rekey" ] && append bss_conf "wpa_gmk_rekey=$wpa_master_rekey" "$N"
[ -n "$wpa_strict_rekey" ] && append bss_conf "wpa_strict_rekey=$wpa_strict_rekey" "$N"
}
[ -n "$nasid" ] && append bss_conf "nas_identifier=$nasid" "$N"
[ -n "$acct_server" ] && {
append bss_conf "acct_server_addr=$acct_server" "$N"
append bss_conf "acct_server_port=$acct_port" "$N"
[ -n "$acct_secret" ] && \
append bss_conf "acct_server_shared_secret=$acct_secret" "$N"
[ -n "$acct_interval" ] && \
append bss_conf "radius_acct_interim_interval=$acct_interval" "$N"
}
case "$auth_type" in
sae|owe|eap192|eap-eap192)
set_default ieee80211w 2
set_default sae_require_mfp 1
;;
psk-sae)
set_default ieee80211w 1
set_default sae_require_mfp 1
;;
esac
[ -n "$sae_require_mfp" ] && append bss_conf "sae_require_mfp=$sae_require_mfp" "$N"
local vlan_possible=""
case "$auth_type" in
none|owe)
json_get_vars owe_transition_bssid owe_transition_ssid
[ -n "$owe_transition_ssid" ] && append bss_conf "owe_transition_ssid=\"$owe_transition_ssid\"" "$N"
[ -n "$owe_transition_bssid" ] && append bss_conf "owe_transition_bssid=$owe_transition_bssid" "$N"
wps_possible=1
# Here we make the assumption that if we're in open mode
# with WPS enabled, we got to be in unconfigured state.
wps_not_configured=1
;;
psk|sae|psk-sae)
json_get_vars key wpa_psk_file
if [ ${#key} -lt 8 ]; then
wireless_setup_vif_failed INVALID_WPA_PSK
return 1
elif [ ${#key} -eq 64 ]; then
append bss_conf "wpa_psk=$key" "$N"
else
append bss_conf "wpa_passphrase=$key" "$N"
fi
[ -n "$wpa_psk_file" ] && {
[ -e "$wpa_psk_file" ] || touch "$wpa_psk_file"
append bss_conf "wpa_psk_file=$wpa_psk_file" "$N"
}
[ "$eapol_version" -ge "1" -a "$eapol_version" -le "2" ] && append bss_conf "eapol_version=$eapol_version" "$N"
wps_possible=1
;;
eap|eap192|eap-eap192)
json_get_vars \
auth_server auth_secret auth_port \
dae_client dae_secret dae_port \
ownip radius_client_addr \
eap_reauth_period
# radius can provide VLAN ID for clients
vlan_possible=1
# legacy compatibility
[ -n "$auth_server" ] || json_get_var auth_server server
[ -n "$auth_port" ] || json_get_var auth_port port
[ -n "$auth_secret" ] || json_get_var auth_secret key
set_default auth_port 1812
set_default dae_port 3799
append bss_conf "auth_server_addr=$auth_server" "$N"
append bss_conf "auth_server_port=$auth_port" "$N"
append bss_conf "auth_server_shared_secret=$auth_secret" "$N"
[ -n "$eap_reauth_period" ] && append bss_conf "eap_reauth_period=$eap_reauth_period" "$N"
[ -n "$dae_client" -a -n "$dae_secret" ] && {
append bss_conf "radius_das_port=$dae_port" "$N"
append bss_conf "radius_das_client=$dae_client $dae_secret" "$N"
}
[ -n "$ownip" ] && append bss_conf "own_ip_addr=$ownip" "$N"
[ -n "$radius_client_addr" ] && append bss_conf "radius_client_addr=$radius_client_addr" "$N"
append bss_conf "eapol_key_index_workaround=1" "$N"
append bss_conf "ieee8021x=1" "$N"
[ "$eapol_version" -ge "1" -a "$eapol_version" -le "2" ] && append bss_conf "eapol_version=$eapol_version" "$N"
;;
wep)
local wep_keyidx=0
json_get_vars key
hostapd_append_wep_key bss_conf
append bss_conf "wep_default_key=$wep_keyidx" "$N"
[ -n "$wep_rekey" ] && append bss_conf "wep_rekey_period=$wep_rekey" "$N"
;;
esac
local auth_algs=$((($auth_mode_shared << 1) | $auth_mode_open))
append bss_conf "auth_algs=${auth_algs:-1}" "$N"
append bss_conf "wpa=$wpa" "$N"
[ -n "$wpa_pairwise" ] && append bss_conf "wpa_pairwise=$wpa_pairwise" "$N"
set_default wps_pushbutton 0
set_default wps_label 0
set_default wps_pbc_in_m1 0
config_methods=
[ "$wps_pushbutton" -gt 0 ] && append config_methods push_button
[ "$wps_label" -gt 0 ] && append config_methods label
# WPS not possible on Multi-AP backhaul-only SSID
[ "$multi_ap" = 1 ] && wps_possible=
[ -n "$wps_possible" -a -n "$config_methods" ] && {
set_default ext_registrar 0
set_default wps_device_type "6-0050F204-1"
set_default wps_device_name "OpenWrt AP"
set_default wps_manufacturer "www.openwrt.org"
set_default wps_independent 1
wps_state=2
[ -n "$wps_configured" ] && wps_state=1
[ "$ext_registrar" -gt 0 -a -n "$network_bridge" ] && append bss_conf "upnp_iface=$network_bridge" "$N"
append bss_conf "eap_server=1" "$N"
[ -n "$wps_pin" ] && append bss_conf "ap_pin=$wps_pin" "$N"
append bss_conf "wps_state=$wps_state" "$N"
append bss_conf "device_type=$wps_device_type" "$N"
append bss_conf "device_name=$wps_device_name" "$N"
append bss_conf "manufacturer=$wps_manufacturer" "$N"
append bss_conf "config_methods=$config_methods" "$N"
append bss_conf "wps_independent=$wps_independent" "$N"
[ -n "$wps_ap_setup_locked" ] && append bss_conf "ap_setup_locked=$wps_ap_setup_locked" "$N"
[ "$wps_pbc_in_m1" -gt 0 ] && append bss_conf "pbc_in_m1=$wps_pbc_in_m1" "$N"
[ "$multi_ap" -gt 0 ] && [ -n "$multi_ap_backhaul_ssid" ] && {
append bss_conf "multi_ap_backhaul_ssid=\"$multi_ap_backhaul_ssid\"" "$N"
if [ -z "$multi_ap_backhaul_key" ]; then
:
elif [ ${#multi_ap_backhaul_key} -lt 8 ]; then
wireless_setup_vif_failed INVALID_WPA_PSK
return 1
elif [ ${#multi_ap_backhaul_key} -eq 64 ]; then
append bss_conf "multi_ap_backhaul_wpa_psk=$multi_ap_backhaul_key" "$N"
else
append bss_conf "multi_ap_backhaul_wpa_passphrase=$multi_ap_backhaul_key" "$N"
fi
}
}
append bss_conf "ssid=$ssid" "$N"
[ -n "$network_bridge" ] && append bss_conf "bridge=$network_bridge" "$N"
[ -n "$iapp_interface" ] && {
local ifname
network_get_device ifname "$iapp_interface" || ifname="$iapp_interface"
append bss_conf "iapp_interface=$ifname" "$N"
}
json_get_vars ieee80211v
set_default ieee80211v 0
if [ "$ieee80211v" -eq "1" ]; then
json_get_vars time_advertisement time_zone wnm_sleep_mode bss_transition
set_default time_advertisement 0
set_default wnm_sleep_mode 0
set_default bss_transition 0
append bss_conf "time_advertisement=$time_advertisement" "$N"
[ -n "$time_zone" ] && append bss_conf "time_zone=$time_zone" "$N"
append bss_conf "wnm_sleep_mode=$wnm_sleep_mode" "$N"
append bss_conf "bss_transition=$bss_transition" "$N"
fi
json_get_vars ieee80211k
set_default ieee80211k 0
if [ "$ieee80211k" -eq "1" ]; then
json_get_vars rrm_neighbor_report rrm_beacon_report
set_default rrm_neighbor_report 1
set_default rrm_beacon_report 1
append bss_conf "rrm_neighbor_report=$rrm_neighbor_report" "$N"
append bss_conf "rrm_beacon_report=$rrm_beacon_report" "$N"
fi
if [ "$wpa" -ge "1" ]; then
json_get_vars ieee80211r
set_default ieee80211r 0
if [ "$ieee80211r" -gt "0" ]; then
json_get_vars mobility_domain ft_psk_generate_local ft_over_ds reassociation_deadline
set_default mobility_domain "$(echo "$ssid" | md5sum | head -c 4)"
set_default ft_over_ds 1
set_default reassociation_deadline 1000
case "$auth_type" in
psk|sae|psk-sae)
set_default ft_psk_generate_local 1
;;
*)
set_default ft_psk_generate_local 0
;;
esac
append bss_conf "mobility_domain=$mobility_domain" "$N"
append bss_conf "ft_psk_generate_local=$ft_psk_generate_local" "$N"
append bss_conf "ft_over_ds=$ft_over_ds" "$N"
append bss_conf "reassociation_deadline=$reassociation_deadline" "$N"
[ -n "$nasid" ] || append bss_conf "nas_identifier=${macaddr//\:}" "$N"
if [ "$ft_psk_generate_local" -eq "0" ]; then
json_get_vars r0_key_lifetime r1_key_holder pmk_r1_push
json_get_values r0kh r0kh
json_get_values r1kh r1kh
set_default r0_key_lifetime 10000
set_default pmk_r1_push 0
[ -n "$r1_key_holder" ] && append bss_conf "r1_key_holder=$r1_key_holder" "$N"
append bss_conf "r0_key_lifetime=$r0_key_lifetime" "$N"
append bss_conf "pmk_r1_push=$pmk_r1_push" "$N"
for kh in $r0kh; do
append bss_conf "r0kh=${kh//,/ }" "$N"
done
for kh in $r1kh; do
append bss_conf "r1kh=${kh//,/ }" "$N"
done
fi
fi
append bss_conf "wpa_disable_eapol_key_retries=$wpa_disable_eapol_key_retries" "$N"
hostapd_append_wpa_key_mgmt
[ -n "$wpa_key_mgmt" ] && append bss_conf "wpa_key_mgmt=$wpa_key_mgmt" "$N"
fi
if [ "$wpa" -ge "2" ]; then
if [ -n "$network_bridge" -a "$rsn_preauth" = 1 ]; then
set_default auth_cache 1
append bss_conf "rsn_preauth=1" "$N"
append bss_conf "rsn_preauth_interfaces=$network_bridge" "$N"
else
case "$auth_type" in
sae|psk-sae|owe)
set_default auth_cache 1
;;
*)
set_default auth_cache 0
;;
esac
fi
append bss_conf "okc=$auth_cache" "$N"
[ "$auth_cache" = 0 ] && append bss_conf "disable_pmksa_caching=1" "$N"
# RSN -> allow management frame protection
case "$ieee80211w" in
[012])
json_get_vars ieee80211w_mgmt_cipher ieee80211w_max_timeout ieee80211w_retry_timeout
append bss_conf "ieee80211w=$ieee80211w" "$N"
[ "$ieee80211w" -gt "0" ] && {
append bss_conf "group_mgmt_cipher=${ieee80211w_mgmt_cipher:-AES-128-CMAC}" "$N"
[ -n "$ieee80211w_max_timeout" ] && \
append bss_conf "assoc_sa_query_max_timeout=$ieee80211w_max_timeout" "$N"
[ -n "$ieee80211w_retry_timeout" ] && \
append bss_conf "assoc_sa_query_retry_timeout=$ieee80211w_retry_timeout" "$N"
}
;;
esac
fi
_macfile="/var/run/hostapd-$ifname.maclist"
case "$macfilter" in
allow)
append bss_conf "macaddr_acl=1" "$N"
append bss_conf "accept_mac_file=$_macfile" "$N"
# accept_mac_file can be used to set MAC to VLAN ID mapping
vlan_possible=1
;;
deny)
append bss_conf "macaddr_acl=0" "$N"
append bss_conf "deny_mac_file=$_macfile" "$N"
;;
*)
_macfile=""
;;
esac
[ -n "$_macfile" ] && {
json_get_vars macfile
json_get_values maclist maclist
rm -f "$_macfile"
(
for mac in $maclist; do
echo "$mac"
done
[ -n "$macfile" -a -f "$macfile" ] && cat "$macfile"
) > "$_macfile"
}
[ -n "$vlan_possible" -a -n "$dynamic_vlan" ] && {
json_get_vars vlan_naming vlan_tagged_interface vlan_bridge vlan_file
set_default vlan_naming 1
append bss_conf "dynamic_vlan=$dynamic_vlan" "$N"
append bss_conf "vlan_naming=$vlan_naming" "$N"
[ -n "$vlan_bridge" ] && \
append bss_conf "vlan_bridge=$vlan_bridge" "$N"
[ -n "$vlan_tagged_interface" ] && \
append bss_conf "vlan_tagged_interface=$vlan_tagged_interface" "$N"
[ -n "$vlan_file" ] && {
[ -e "$vlan_file" ] || touch "$vlan_file"
append bss_conf "vlan_file=$vlan_file" "$N"
}
}
bss_md5sum=$(echo $bss_conf | md5sum | cut -d" " -f1)
append bss_conf "config_id=$bss_md5sum" "$N"
append "$var" "$bss_conf" "$N"
return 0
}
hostapd_set_log_options() {
local var="$1"
local log_level log_80211 log_8021x log_radius log_wpa log_driver log_iapp log_mlme
json_get_vars log_level log_80211 log_8021x log_radius log_wpa log_driver log_iapp log_mlme
set_default log_level 2
set_default log_80211 1
set_default log_8021x 1
set_default log_radius 1
set_default log_wpa 1
set_default log_driver 1
set_default log_iapp 1
set_default log_mlme 1
local log_mask=$(( \
($log_80211 << 0) | \
($log_8021x << 1) | \
($log_radius << 2) | \
($log_wpa << 3) | \
($log_driver << 4) | \
($log_iapp << 5) | \
($log_mlme << 6) \
))
append "$var" "logger_syslog=$log_mask" "$N"
append "$var" "logger_syslog_level=$log_level" "$N"
append "$var" "logger_stdout=$log_mask" "$N"
append "$var" "logger_stdout_level=$log_level" "$N"
return 0
}
_wpa_supplicant_common() {
local ifname="$1"
_rpath="/var/run/wpa_supplicant"
_config="${_rpath}-$ifname.conf"
}
wpa_supplicant_teardown_interface() {
_wpa_supplicant_common "$1"
rm -rf "$_rpath/$1" "$_config"
}
wpa_supplicant_prepare_interface() {
local ifname="$1"
_w_driver="$2"
_wpa_supplicant_common "$1"
json_get_vars mode wds multi_ap
[ -n "$network_bridge" ] && {
fail=
case "$mode" in
adhoc)
fail=1
;;
sta)
[ "$wds" = 1 -o "$multi_ap" = 1 ] || fail=1
;;
esac
[ -n "$fail" ] && {
wireless_setup_vif_failed BRIDGE_NOT_ALLOWED
return 1
}
}
local ap_scan=
_w_mode="$mode"
[ "$mode" = adhoc ] && {
ap_scan="ap_scan=2"
}
local country_str=
[ -n "$country" ] && {
country_str="country=$country"
}
multiap_flag_file="${_config}.is_multiap"
if [ "$multi_ap" = "1" ]; then
touch "$multiap_flag_file"
else
[ -e "$multiap_flag_file" ] && rm "$multiap_flag_file"
fi
wpa_supplicant_teardown_interface "$ifname"
cat > "$_config" <<EOF
$ap_scan
$country_str
EOF
return 0
}
wpa_supplicant_set_fixed_freq() {
local freq="$1"
local htmode="$2"
append network_data "fixed_freq=1" "$N$T"
append network_data "frequency=$freq" "$N$T"
case "$htmode" in
NOHT) append network_data "disable_ht=1" "$N$T";;
HT20|VHT20) append network_data "disable_ht40=1" "$N$T";;
HT40*|VHT40*|VHT80*|VHT160*) append network_data "ht40=1" "$N$T";;
esac
case "$htmode" in
VHT*) append network_data "vht=1" "$N$T";;
esac
case "$htmode" in
VHT80) append network_data "max_oper_chwidth=1" "$N$T";;
VHT160) append network_data "max_oper_chwidth=2" "$N$T";;
*) append network_data "max_oper_chwidth=0" "$N$T";;
esac
}
wpa_supplicant_add_network() {
local ifname="$1"
local freq="$2"
local htmode="$3"
local noscan="$4"
_wpa_supplicant_common "$1"
wireless_vif_parse_encryption
json_get_vars \
ssid bssid key \
basic_rate mcast_rate \
ieee80211w ieee80211r \
multi_ap
case "$auth_type" in
sae|owe|eap192|eap-eap192)
set_default ieee80211w 2
;;
psk-sae)
set_default ieee80211w 1
;;
esac
set_default ieee80211r 0
set_default multi_ap 0
local key_mgmt='NONE'
local enc_str=
local network_data=
local T=" "
local scan_ssid="scan_ssid=1"
local freq wpa_key_mgmt
[ "$_w_mode" = "adhoc" ] && {
append network_data "mode=1" "$N$T"
[ -n "$freq" ] && wpa_supplicant_set_fixed_freq "$freq" "$htmode"
[ "$noscan" = "1" ] && append network_data "noscan=1" "$N$T"
scan_ssid="scan_ssid=0"
[ "$_w_driver" = "nl80211" ] || append wpa_key_mgmt "WPA-NONE"
}
[ "$_w_mode" = "mesh" ] && {
json_get_vars mesh_id mesh_fwding mesh_rssi_threshold
[ -n "$mesh_id" ] && ssid="${mesh_id}"
append network_data "mode=5" "$N$T"
[ -n "$mesh_fwding" ] && append network_data "mesh_fwding=${mesh_fwding}" "$N$T"
[ -n "$mesh_rssi_threshold" ] && append network_data "mesh_rssi_threshold=${mesh_rssi_threshold}" "$N$T"
[ -n "$freq" ] && wpa_supplicant_set_fixed_freq "$freq" "$htmode"
[ "$noscan" = "1" ] && append network_data "noscan=1" "$N$T"
append wpa_key_mgmt "SAE"
scan_ssid=""
}
[ "$multi_ap" = 1 -a "$_w_mode" = "sta" ] && append network_data "multi_ap_backhaul_sta=1" "$N$T"
case "$auth_type" in
none) ;;
owe)
hostapd_append_wpa_key_mgmt
key_mgmt="$wpa_key_mgmt"
;;
wep)
local wep_keyidx=0
hostapd_append_wep_key network_data
append network_data "wep_tx_keyidx=$wep_keyidx" "$N$T"
;;
wps)
key_mgmt='WPS'
;;
psk|sae|psk-sae)
local passphrase
if [ "$_w_mode" != "mesh" ]; then
hostapd_append_wpa_key_mgmt
fi
key_mgmt="$wpa_key_mgmt"
if [ ${#key} -eq 64 ]; then
passphrase="psk=${key}"
else
hostapd: update to git snapshot of 2018-03-26 The following patches were merged upstream: 000-hostapd-Avoid-key-reinstallation-in-FT-handshake.patch replaced by commit 0e3bd7ac6 001-Prevent-reinstallation-of-an-already-in-use-group-ke.patch replaced by commit cb5132bb3 002-Extend-protection-of-GTK-IGTK-reinstallation-of-WNM-.patch replaced by commit 87e2db16b 003-Prevent-installation-of-an-all-zero-TK.patch replaced by commit 53bb18cc8 004-Fix-PTK-rekeying-to-generate-a-new-ANonce.patch replaced by commit 0adc9b28b 005-TDLS-Reject-TPK-TK-reconfiguration.patch replaced by commit ff89af96e 006-WNM-Ignore-WNM-Sleep-Mode-Response-without-pending-r.patch replaced by commit adae51f8b 007-FT-Do-not-allow-multiple-Reassociation-Response-fram.patch replaced by commit 2a9c5217b 008-WPA-Extra-defense-against-PTK-reinstalls-in-4-way-ha.patch replaced by commit a00e946c1 009-Clear-PMK-length-and-check-for-this-when-deriving-PT.patch replaced by commit b488a1294 010-Optional-AP-side-workaround-for-key-reinstallation-a.patch replaced by commit 6f234c1e2 011-Additional-consistentcy-checks-for-PTK-component-len.patch replaced by commit a6ea66530 012-Clear-BSSID-information-in-supplicant-state-machine-.patch replaced by commit c0fe5f125 013-WNM-Ignore-WNM-Sleep-Mode-Request-in-wnm_sleep_mode-.patch replaced by commit 114f2830d Some patches had to be modified to work with changed upstream source: 380-disable_ctrl_iface_mib.patch (adding more ifdef'ery) plus some minor knits needed for other patches to apply which are not worth being explicitely listed here. For SAE key management in mesh mode, use the newly introduce sae_password parameter instead of the psk parameter to also support SAE keys which would fail the checks applied on the psk field (ie. length and such). This fixes compatibility issues for users migrating from authsae. Signed-off-by: Daniel Golle <daniel@makrotopia.org>
2018-03-27 17:24:27 +00:00
if [ "$_w_mode" = "mesh" ]; then
passphrase="sae_password=\"${key}\""
else
passphrase="psk=\"${key}\""
fi
fi
append network_data "$passphrase" "$N$T"
;;
eap|eap192|eap-eap192)
hostapd_append_wpa_key_mgmt
key_mgmt="$wpa_key_mgmt"
json_get_vars eap_type identity anonymous_identity ca_cert ca_cert_usesystem
if [ "$ca_cert_usesystem" -eq "1" -a -f "/etc/ssl/certs/ca-certificates.crt" ]; then
append network_data "ca_cert=\"/etc/ssl/certs/ca-certificates.crt\"" "$N$T"
else
[ -n "$ca_cert" ] && append network_data "ca_cert=\"$ca_cert\"" "$N$T"
fi
[ -n "$identity" ] && append network_data "identity=\"$identity\"" "$N$T"
[ -n "$anonymous_identity" ] && append network_data "anonymous_identity=\"$anonymous_identity\"" "$N$T"
case "$eap_type" in
tls)
json_get_vars client_cert priv_key priv_key_pwd
append network_data "client_cert=\"$client_cert\"" "$N$T"
append network_data "private_key=\"$priv_key\"" "$N$T"
append network_data "private_key_passwd=\"$priv_key_pwd\"" "$N$T"
hostapd: add support for subject validation The wpa_supplicant supports certificate subject validation via the subject match(2) and altsubject_match(2) fields. domain_match(2) and domain_suffix_match(2) fields are also supported for advanced matches. This validation is especially important when connecting to access points that use PAP as the Phase 2 authentication type. Without proper validation, the user's password can be transmitted to a rogue access point in plaintext without the user's knowledge. Most organizations already require these attributes to be included to ensure that the connection from the STA and the AP is secure. Includes LuCI changes via openwrt/luci#3444. From the documentation: subject_match - Constraint for server certificate subject. This substring is matched against the subject of the authentication server certificate. If this string is set, the server sertificate is only accepted if it contains this string in the subject. The subject string is in following format: /C=US/ST=CA/L=San Francisco/CN=Test AS/emailAddress=as .example.com subject_match2 - Constraint for server certificate subject. This field is like subject_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. altsubject_match - Constraint for server certificate alt. subject. Semicolon separated string of entries to be matched against the alternative subject name of the authentication server certificate. If this string is set, the server sertificate is only accepted if it contains one of the entries in an alternative subject name extension. altSubjectName string is in following format: TYPE:VALUE Example: EMAIL:server@example.com Example: DNS:server.example.com;DNS:server2.example.com Following types are supported: EMAIL, DNS, URI altsubject_match2 - Constraint for server certificate alt. subject. This field is like altsubject_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. domain_match - Constraint for server domain name. If set, this FQDN is used as a full match requirement for the server certificate in SubjectAltName dNSName element(s). If a matching dNSName is found, this constraint is met. If no dNSName values are present, this constraint is matched against SubjectName CN using same full match comparison. This behavior is similar to domain_suffix_match, but has the requirement of a full match, i.e., no subdomains or wildcard matches are allowed. Case-insensitive comparison is used, so "Example.com" matches "example.com", but would not match "test.Example.com". More than one match string can be provided by using semicolons to separate the strings (e.g., example.org;example.com). When multiple strings are specified, a match with any one of the values is considered a sufficient match for the certificate, i.e., the conditions are ORed together. domain_match2 - Constraint for server domain name. This field is like domain_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. domain_suffix_match - Constraint for server domain name. If set, this FQDN is used as a suffix match requirement for the AAA server certificate in SubjectAltName dNSName element(s). If a matching dNSName is found, this constraint is met. If no dNSName values are present, this constraint is matched against SubjectName CN using same suffix match comparison. Suffix match here means that the host/domain name is compared one label at a time starting from the top-level domain and all the labels in domain_suffix_match shall be included in the certificate. The certificate may include additional sub-level labels in addition to the required labels. More than one match string can be provided by using semicolons to separate the strings (e.g., example.org;example.com). When multiple strings are specified, a match with any one of the values is considered a sufficient match for the certificate, i.e., the conditions are ORed together. For example, domain_suffix_match=example.com would match test.example.com but would not match test-example.com. This field is like domain_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. domain_suffix_match2 - Constraint for server domain name. This field is like domain_suffix_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. Signed-off-by: David Lam <david@thedavid.net>
2020-01-14 08:27:28 +00:00
json_get_vars subject_match
[ -n "$subject_match" ] && append network_data "subject_match=\"$subject_match\"" "$N$T"
json_get_values altsubject_match altsubject_match
if [ -n "$altsubject_match" ]; then
local list=
for x in $altsubject_match; do
append list "$x" ";"
done
append network_data "altsubject_match=\"$list\"" "$N$T"
fi
json_get_values domain_match domain_match
if [ -n "$domain_match" ]; then
local list=
for x in $domain_match; do
append list "$x" ";"
done
append network_data "domain_match=\"$list\"" "$N$T"
fi
json_get_values domain_suffix_match domain_suffix_match
if [ -n "$domain_suffix_match" ]; then
local list=
for x in $domain_suffix_match; do
append list "$x" ";"
done
append network_data "domain_suffix_match=\"$list\"" "$N$T"
fi
;;
wpa_supplicant: improve generating phase2 config line for WPA-EAP WPA-EAP supports several phase2 (=inner) authentication methods when using EAP-TTLS, EAP-PEAP or EAP-FAST (the latter is added as a first step towards the UCI model supporting EAP-FAST by this commit) The value of the auth config variable was previously expected to be directly parseable as the content of the 'phase2' option of wpa_supplicant. This exposed wpa_supplicant's internals, leaving it to view-level to set the value properly. Unfortunately, this is currently not the case, as LuCI currently allows values like 'PAP', 'CHAP', 'MSCHAPV2'. Users thus probably diverged and set auth to values like 'auth=MSCHAPV2' as a work-around. This behaviour isn't explicitely documented anywhere and is not quite intuitive... The phase2-string is now generated according to $eap_type and $auth, following the scheme also found in hostap's test-cases: http://w1.fi/cgit/hostap/tree/tests/hwsim/test_ap_eap.py The old behaviour is also still supported for the sake of not breaking existing, working configurations. Examples: eap_type auth 'ttls' 'EAP-MSCHAPV2' -> phase2="autheap=MSCHAPV2" 'ttls' 'MSCHAPV2' -> phase2="auth=MSCHAPV2" 'peap' 'EAP-GTC' -> phase2="auth=GTC" Deprecated syntax supported for compatibility: 'ttls' 'autheap=MSCHAPV2' -> phase2="autheap=MSCHAPV2" I will suggest a patch to LuCI adding EAP-MSCHAPV2, EAP-GTC, ... to the list of Authentication methods available. Signed-off-by: Daniel Golle <daniel@makrotopia.org> SVN-Revision: 48309
2016-01-18 11:40:44 +00:00
fast|peap|ttls)
json_get_vars auth password ca_cert2 ca_cert2_usesystem client_cert2 priv_key2 priv_key2_pwd
set_default auth MSCHAPV2
if [ "$auth" = "EAP-TLS" ]; then
if [ "$ca_cert2_usesystem" -eq "1" -a -f "/etc/ssl/certs/ca-certificates.crt" ]; then
append network_data "ca_cert2=\"/etc/ssl/certs/ca-certificates.crt\"" "$N$T"
else
[ -n "$ca_cert2" ] && append network_data "ca_cert2=\"$ca_cert2\"" "$N$T"
fi
append network_data "client_cert2=\"$client_cert2\"" "$N$T"
append network_data "private_key2=\"$priv_key2\"" "$N$T"
append network_data "private_key2_passwd=\"$priv_key2_pwd\"" "$N$T"
else
append network_data "password=\"$password\"" "$N$T"
fi
hostapd: add support for subject validation The wpa_supplicant supports certificate subject validation via the subject match(2) and altsubject_match(2) fields. domain_match(2) and domain_suffix_match(2) fields are also supported for advanced matches. This validation is especially important when connecting to access points that use PAP as the Phase 2 authentication type. Without proper validation, the user's password can be transmitted to a rogue access point in plaintext without the user's knowledge. Most organizations already require these attributes to be included to ensure that the connection from the STA and the AP is secure. Includes LuCI changes via openwrt/luci#3444. From the documentation: subject_match - Constraint for server certificate subject. This substring is matched against the subject of the authentication server certificate. If this string is set, the server sertificate is only accepted if it contains this string in the subject. The subject string is in following format: /C=US/ST=CA/L=San Francisco/CN=Test AS/emailAddress=as .example.com subject_match2 - Constraint for server certificate subject. This field is like subject_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. altsubject_match - Constraint for server certificate alt. subject. Semicolon separated string of entries to be matched against the alternative subject name of the authentication server certificate. If this string is set, the server sertificate is only accepted if it contains one of the entries in an alternative subject name extension. altSubjectName string is in following format: TYPE:VALUE Example: EMAIL:server@example.com Example: DNS:server.example.com;DNS:server2.example.com Following types are supported: EMAIL, DNS, URI altsubject_match2 - Constraint for server certificate alt. subject. This field is like altsubject_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. domain_match - Constraint for server domain name. If set, this FQDN is used as a full match requirement for the server certificate in SubjectAltName dNSName element(s). If a matching dNSName is found, this constraint is met. If no dNSName values are present, this constraint is matched against SubjectName CN using same full match comparison. This behavior is similar to domain_suffix_match, but has the requirement of a full match, i.e., no subdomains or wildcard matches are allowed. Case-insensitive comparison is used, so "Example.com" matches "example.com", but would not match "test.Example.com". More than one match string can be provided by using semicolons to separate the strings (e.g., example.org;example.com). When multiple strings are specified, a match with any one of the values is considered a sufficient match for the certificate, i.e., the conditions are ORed together. domain_match2 - Constraint for server domain name. This field is like domain_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. domain_suffix_match - Constraint for server domain name. If set, this FQDN is used as a suffix match requirement for the AAA server certificate in SubjectAltName dNSName element(s). If a matching dNSName is found, this constraint is met. If no dNSName values are present, this constraint is matched against SubjectName CN using same suffix match comparison. Suffix match here means that the host/domain name is compared one label at a time starting from the top-level domain and all the labels in domain_suffix_match shall be included in the certificate. The certificate may include additional sub-level labels in addition to the required labels. More than one match string can be provided by using semicolons to separate the strings (e.g., example.org;example.com). When multiple strings are specified, a match with any one of the values is considered a sufficient match for the certificate, i.e., the conditions are ORed together. For example, domain_suffix_match=example.com would match test.example.com but would not match test-example.com. This field is like domain_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. domain_suffix_match2 - Constraint for server domain name. This field is like domain_suffix_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. Signed-off-by: David Lam <david@thedavid.net>
2020-01-14 08:27:28 +00:00
json_get_vars subject_match
[ -n "$subject_match" ] && append network_data "subject_match=\"$subject_match\"" "$N$T"
json_get_values altsubject_match altsubject_match
if [ -n "$altsubject_match" ]; then
local list=
for x in $altsubject_match; do
append list "$x" ";"
done
append network_data "altsubject_match=\"$list\"" "$N$T"
fi
json_get_values domain_match domain_match
if [ -n "$domain_match" ]; then
local list=
for x in $domain_match; do
append list "$x" ";"
done
append network_data "domain_match=\"$list\"" "$N$T"
fi
json_get_values domain_suffix_match domain_suffix_match
if [ -n "$domain_suffix_match" ]; then
local list=
for x in $domain_suffix_match; do
append list "$x" ";"
done
append network_data "domain_suffix_match=\"$list\"" "$N$T"
fi
wpa_supplicant: improve generating phase2 config line for WPA-EAP WPA-EAP supports several phase2 (=inner) authentication methods when using EAP-TTLS, EAP-PEAP or EAP-FAST (the latter is added as a first step towards the UCI model supporting EAP-FAST by this commit) The value of the auth config variable was previously expected to be directly parseable as the content of the 'phase2' option of wpa_supplicant. This exposed wpa_supplicant's internals, leaving it to view-level to set the value properly. Unfortunately, this is currently not the case, as LuCI currently allows values like 'PAP', 'CHAP', 'MSCHAPV2'. Users thus probably diverged and set auth to values like 'auth=MSCHAPV2' as a work-around. This behaviour isn't explicitely documented anywhere and is not quite intuitive... The phase2-string is now generated according to $eap_type and $auth, following the scheme also found in hostap's test-cases: http://w1.fi/cgit/hostap/tree/tests/hwsim/test_ap_eap.py The old behaviour is also still supported for the sake of not breaking existing, working configurations. Examples: eap_type auth 'ttls' 'EAP-MSCHAPV2' -> phase2="autheap=MSCHAPV2" 'ttls' 'MSCHAPV2' -> phase2="auth=MSCHAPV2" 'peap' 'EAP-GTC' -> phase2="auth=GTC" Deprecated syntax supported for compatibility: 'ttls' 'autheap=MSCHAPV2' -> phase2="autheap=MSCHAPV2" I will suggest a patch to LuCI adding EAP-MSCHAPV2, EAP-GTC, ... to the list of Authentication methods available. Signed-off-by: Daniel Golle <daniel@makrotopia.org> SVN-Revision: 48309
2016-01-18 11:40:44 +00:00
phase2proto="auth="
case "$auth" in
"auth"*)
phase2proto=""
;;
"EAP-"*)
auth="$(echo $auth | cut -b 5- )"
[ "$eap_type" = "ttls" ] &&
phase2proto="autheap="
hostapd: add support for subject validation The wpa_supplicant supports certificate subject validation via the subject match(2) and altsubject_match(2) fields. domain_match(2) and domain_suffix_match(2) fields are also supported for advanced matches. This validation is especially important when connecting to access points that use PAP as the Phase 2 authentication type. Without proper validation, the user's password can be transmitted to a rogue access point in plaintext without the user's knowledge. Most organizations already require these attributes to be included to ensure that the connection from the STA and the AP is secure. Includes LuCI changes via openwrt/luci#3444. From the documentation: subject_match - Constraint for server certificate subject. This substring is matched against the subject of the authentication server certificate. If this string is set, the server sertificate is only accepted if it contains this string in the subject. The subject string is in following format: /C=US/ST=CA/L=San Francisco/CN=Test AS/emailAddress=as .example.com subject_match2 - Constraint for server certificate subject. This field is like subject_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. altsubject_match - Constraint for server certificate alt. subject. Semicolon separated string of entries to be matched against the alternative subject name of the authentication server certificate. If this string is set, the server sertificate is only accepted if it contains one of the entries in an alternative subject name extension. altSubjectName string is in following format: TYPE:VALUE Example: EMAIL:server@example.com Example: DNS:server.example.com;DNS:server2.example.com Following types are supported: EMAIL, DNS, URI altsubject_match2 - Constraint for server certificate alt. subject. This field is like altsubject_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. domain_match - Constraint for server domain name. If set, this FQDN is used as a full match requirement for the server certificate in SubjectAltName dNSName element(s). If a matching dNSName is found, this constraint is met. If no dNSName values are present, this constraint is matched against SubjectName CN using same full match comparison. This behavior is similar to domain_suffix_match, but has the requirement of a full match, i.e., no subdomains or wildcard matches are allowed. Case-insensitive comparison is used, so "Example.com" matches "example.com", but would not match "test.Example.com". More than one match string can be provided by using semicolons to separate the strings (e.g., example.org;example.com). When multiple strings are specified, a match with any one of the values is considered a sufficient match for the certificate, i.e., the conditions are ORed together. domain_match2 - Constraint for server domain name. This field is like domain_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. domain_suffix_match - Constraint for server domain name. If set, this FQDN is used as a suffix match requirement for the AAA server certificate in SubjectAltName dNSName element(s). If a matching dNSName is found, this constraint is met. If no dNSName values are present, this constraint is matched against SubjectName CN using same suffix match comparison. Suffix match here means that the host/domain name is compared one label at a time starting from the top-level domain and all the labels in domain_suffix_match shall be included in the certificate. The certificate may include additional sub-level labels in addition to the required labels. More than one match string can be provided by using semicolons to separate the strings (e.g., example.org;example.com). When multiple strings are specified, a match with any one of the values is considered a sufficient match for the certificate, i.e., the conditions are ORed together. For example, domain_suffix_match=example.com would match test.example.com but would not match test-example.com. This field is like domain_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. domain_suffix_match2 - Constraint for server domain name. This field is like domain_suffix_match, but used for phase 2 (inside EAP-TTLS/PEAP/FAST tunnel) authentication. Signed-off-by: David Lam <david@thedavid.net>
2020-01-14 08:27:28 +00:00
json_get_vars subject_match2
[ -n "$subject_match2" ] && append network_data "subject_match2=\"$subject_match2\"" "$N$T"
json_get_values altsubject_match2 altsubject_match2
if [ -n "$altsubject_match2" ]; then
local list=
for x in $altsubject_match2; do
append list "$x" ";"
done
append network_data "altsubject_match2=\"$list\"" "$N$T"
fi
json_get_values domain_match2 domain_match2
if [ -n "$domain_match2" ]; then
local list=
for x in $domain_match2; do
append list "$x" ";"
done
append network_data "domain_match2=\"$list\"" "$N$T"
fi
json_get_values domain_suffix_match2 domain_suffix_match2
if [ -n "$domain_suffix_match2" ]; then
local list=
for x in $domain_suffix_match2; do
append list "$x" ";"
done
append network_data "domain_suffix_match2=\"$list\"" "$N$T"
fi
wpa_supplicant: improve generating phase2 config line for WPA-EAP WPA-EAP supports several phase2 (=inner) authentication methods when using EAP-TTLS, EAP-PEAP or EAP-FAST (the latter is added as a first step towards the UCI model supporting EAP-FAST by this commit) The value of the auth config variable was previously expected to be directly parseable as the content of the 'phase2' option of wpa_supplicant. This exposed wpa_supplicant's internals, leaving it to view-level to set the value properly. Unfortunately, this is currently not the case, as LuCI currently allows values like 'PAP', 'CHAP', 'MSCHAPV2'. Users thus probably diverged and set auth to values like 'auth=MSCHAPV2' as a work-around. This behaviour isn't explicitely documented anywhere and is not quite intuitive... The phase2-string is now generated according to $eap_type and $auth, following the scheme also found in hostap's test-cases: http://w1.fi/cgit/hostap/tree/tests/hwsim/test_ap_eap.py The old behaviour is also still supported for the sake of not breaking existing, working configurations. Examples: eap_type auth 'ttls' 'EAP-MSCHAPV2' -> phase2="autheap=MSCHAPV2" 'ttls' 'MSCHAPV2' -> phase2="auth=MSCHAPV2" 'peap' 'EAP-GTC' -> phase2="auth=GTC" Deprecated syntax supported for compatibility: 'ttls' 'autheap=MSCHAPV2' -> phase2="autheap=MSCHAPV2" I will suggest a patch to LuCI adding EAP-MSCHAPV2, EAP-GTC, ... to the list of Authentication methods available. Signed-off-by: Daniel Golle <daniel@makrotopia.org> SVN-Revision: 48309
2016-01-18 11:40:44 +00:00
;;
esac
append network_data "phase2=\"$phase2proto$auth\"" "$N$T"
;;
esac
append network_data "eap=$(echo $eap_type | tr 'a-z' 'A-Z')" "$N$T"
;;
esac
[ "$mode" = mesh ] || {
case "$wpa" in
1)
append network_data "proto=WPA" "$N$T"
;;
2)
append network_data "proto=RSN" "$N$T"
;;
esac
case "$ieee80211w" in
[012])
[ "$wpa" -ge 2 ] && append network_data "ieee80211w=$ieee80211w" "$N$T"
;;
esac
}
[ -n "$bssid" ] && append network_data "bssid=$bssid" "$N$T"
[ -n "$beacon_int" ] && append network_data "beacon_int=$beacon_int" "$N$T"
hostapd: backport BSSID black/whitelists This change adds the configuration options "bssid_whitelist" and "bssid_blacklist" used to limit the AP selection of a network to a specified (finite) set or discard certain APs. This can be useful for environments where multiple networks operate using the same SSID and roaming between those is not desired. It is also useful to ignore a faulty or otherwise unwanted AP. In many applications it is useful not just to enumerate a group of well known access points, but to use a address/mask notation to match an entire set of addresses (ca:ff:ee:00:00:00/ff:ff:ff:00:00:00). This is especially useful if an OpenWrt device with two radios is used to retransmit the same network (one in AP mode for other clients, one as STA for the uplink); the following configuration prevents the device from associating with itself, given that the own AP to be avoided is using the bssid 'C0:FF:EE:D0:0D:42': config wifi-iface option device 'radio2' option network 'uplink' option mode 'sta' option ssid 'MyNetwork' option encryption 'none' list bssid_blacklist 'C0:FF:EE:D0:0D:42/00:FF:FF:FF:FF:FF' This change consists of the following cherry-picked upstream commits: b3d6a0a8259002448a29f14855d58fe0a624ab76 b83e455451a875ba233b3b8ac29aff8b62f064f2 79cd993a623e101952b81fa6a29c674cd858504f (squashed to implement bssid_{white,black}lists) 0047306bc9ab7d46e8cc22ff9a3e876c47626473 (Add os_snprintf_error() helper) Signed-off-by: Stefan Tomanek <stefan.tomanek+openwrt@wertarbyte.de> SVN-Revision: 44438
2015-02-13 10:53:54 +00:00
local bssid_blacklist bssid_whitelist
json_get_values bssid_blacklist bssid_blacklist
json_get_values bssid_whitelist bssid_whitelist
[ -n "$bssid_blacklist" ] && append network_data "bssid_blacklist=$bssid_blacklist" "$N$T"
[ -n "$bssid_whitelist" ] && append network_data "bssid_whitelist=$bssid_whitelist" "$N$T"
[ -n "$basic_rate" ] && {
local br rate_list=
for br in $basic_rate; do
wpa_supplicant_add_rate rate_list "$br"
done
[ -n "$rate_list" ] && append network_data "rates=$rate_list" "$N$T"
}
[ -n "$mcast_rate" ] && {
local mc_rate=
wpa_supplicant_add_rate mc_rate "$mcast_rate"
append network_data "mcast_rate=$mc_rate" "$N$T"
}
if [ "$key_mgnt" = "WPS" ]; then
echo "wps_cred_processing=1" >> "$_config"
else
cat >> "$_config" <<EOF
network={
$scan_ssid
ssid="$ssid"
key_mgmt=$key_mgmt
$network_data
}
EOF
fi
return 0
}
wpa_supplicant_run() {
local ifname="$1"
local hostapd_ctrl="$2"
_wpa_supplicant_common "$ifname"
ubus wait_for wpa_supplicant.$phy
ubus call wpa_supplicant.$phy config_add "{ \
\"driver\": \"${_w_driver:-wext}\", \"ctrl\": \"$_rpath\", \
\"iface\": \"$ifname\", \"config\": \"$_config\" \
${network_bridge:+, \"bridge\": \"$network_bridge\"} \
${hostapd_ctrl:+, \"hostapd_ctrl\": \"$hostapd_ctrl\"} \
}"
ret="$?"
[ "$ret" != 0 ] && wireless_setup_vif_failed WPA_SUPPLICANT_FAILED
local supplicant_pid=$(ubus call service list '{"name": "hostapd"}' | jsonfilter -l 1 -e "@['hostapd'].instances['supplicant-${phy}'].pid")
wireless_add_process "$supplicant_pid" "/usr/sbin/wpa_supplicant" 1
return $ret
}
hostapd_common_cleanup() {
killall meshd-nl80211
}