openwrt/package/kernel/mac80211/files/lib/netifd/wireless/mac80211.sh

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#!/bin/sh
. /lib/netifd/netifd-wireless.sh
. /lib/netifd/hostapd.sh
. /lib/functions/system.sh
init_wireless_driver "$@"
MP_CONFIG_INT="mesh_retry_timeout mesh_confirm_timeout mesh_holding_timeout mesh_max_peer_links
mesh_max_retries mesh_ttl mesh_element_ttl mesh_hwmp_max_preq_retries
mesh_path_refresh_time mesh_min_discovery_timeout mesh_hwmp_active_path_timeout
mesh_hwmp_preq_min_interval mesh_hwmp_net_diameter_traversal_time mesh_hwmp_rootmode
mesh_hwmp_rann_interval mesh_gate_announcements mesh_sync_offset_max_neighor
mesh_rssi_threshold mesh_hwmp_active_path_to_root_timeout mesh_hwmp_root_interval
mesh_hwmp_confirmation_interval mesh_awake_window mesh_plink_timeout"
MP_CONFIG_BOOL="mesh_auto_open_plinks mesh_fwding"
MP_CONFIG_STRING="mesh_power_mode"
NEWAPLIST=
OLDAPLIST=
NEWSPLIST=
OLDSPLIST=
NEWUMLIST=
OLDUMLIST=
drv_mac80211_init_device_config() {
hostapd_common_add_device_config
config_add_string path phy 'macaddr:macaddr'
config_add_string tx_burst
config_add_string distance
config_add_int beacon_int chanbw frag rts
hostapd: introduce min_tx_power option Introduce a new option min_tx_power to configure the minimum permitted max TX power (in dBm) for ACS and DFS channel selection. Imagine the following regulatory rules: * 5180 MHz [36] (21.0 dBm) * 5200 MHz [40] (21.0 dBm) * 5220 MHz [44] (21.0 dBm) * 5240 MHz [48] (21.0 dBm) * 5260 MHz [52] (20.0 dBm) (radar detection) * 5280 MHz [56] (20.0 dBm) (radar detection) * 5300 MHz [60] (20.0 dBm) (radar detection) * 5320 MHz [64] (20.0 dBm) (radar detection) * 5500 MHz [100] (21.0 dBm) (radar detection) * 5520 MHz [104] (21.0 dBm) (radar detection) * 5540 MHz [108] (21.0 dBm) (radar detection) * 5560 MHz [112] (21.0 dBm) (radar detection) * 5580 MHz [116] (21.0 dBm) (radar detection) * 5600 MHz [120] (21.0 dBm) (radar detection) * 5620 MHz [124] (21.0 dBm) (radar detection) * 5640 MHz [128] (21.0 dBm) (radar detection) * 5660 MHz [132] (21.0 dBm) (radar detection) * 5680 MHz [136] (21.0 dBm) (radar detection) * 5700 MHz [140] (21.0 dBm) (radar detection) * 5720 MHz [144] (13.0 dBm) (radar detection) * 5745 MHz [149] (13.0 dBm) * 5765 MHz [153] (13.0 dBm) * 5785 MHz [157] (13.0 dBm) * 5805 MHz [161] (13.0 dBm) * 5825 MHz [165] (13.0 dBm) * 5845 MHz [169] (13.0 dBm) * 5865 MHz [173] (13.0 dBm) When ACS or DFS end up selecting channel 144 or higher, some clients might no longer be able to communicate with the AP due to the TX power being limited to 13 dBm. Setting min_tx_power to 20 will result in hostapd not considering these channels during ACS or after a DFS event. Signed-off-by: Stijn Tintel <stijn@linux-ipv6.be> Acked-by: David Bauer <mail@david-bauer.net>
2022-06-27 14:06:34 +00:00
config_add_int rxantenna txantenna antenna_gain txpower min_tx_power
config_add_boolean noscan ht_coex acs_exclude_dfs background_radar
config_add_array ht_capab
config_add_array channels
config_add_array scan_list
config_add_boolean \
rxldpc \
short_gi_80 \
short_gi_160 \
tx_stbc_2by1 \
su_beamformer \
su_beamformee \
mu_beamformer \
mu_beamformee \
he_su_beamformer \
he_su_beamformee \
he_mu_beamformer \
vht_txop_ps \
htc_vht \
rx_antenna_pattern \
tx_antenna_pattern \
he_spr_sr_control \
he_spr_psr_enabled \
he_bss_color_enabled \
he_twt_required
config_add_int \
beamformer_antennas \
beamformee_antennas \
vht_max_a_mpdu_len_exp \
vht_max_mpdu \
vht_link_adapt \
vht160 \
rx_stbc \
tx_stbc \
he_bss_color \
he_spr_non_srg_obss_pd_max_offset
config_add_boolean \
ldpc \
greenfield \
short_gi_20 \
short_gi_40 \
max_amsdu \
dsss_cck_40
}
drv_mac80211_init_iface_config() {
hostapd_common_add_bss_config
config_add_string 'macaddr:macaddr' ifname
config_add_boolean wds powersave enable
config_add_string wds_bridge
config_add_int maxassoc
config_add_int max_listen_int
config_add_int dtim_period
config_add_int start_disabled
# mesh
config_add_string mesh_id
config_add_int $MP_CONFIG_INT
config_add_boolean $MP_CONFIG_BOOL
config_add_string $MP_CONFIG_STRING
}
mac80211_add_capabilities() {
local __var="$1"; shift
local __mask="$1"; shift
local __out= oifs
oifs="$IFS"
IFS=:
for capab in "$@"; do
set -- $capab
[ "$(($4))" -gt 0 ] || continue
[ "$(($__mask & $2))" -eq "$((${3:-$2}))" ] || continue
__out="$__out[$1]"
done
IFS="$oifs"
export -n -- "$__var=$__out"
}
mac80211_add_he_capabilities() {
local __out= oifs
oifs="$IFS"
IFS=:
for capab in "$@"; do
set -- $capab
[ "$(($4))" -gt 0 ] || continue
[ "$(((0x$2) & $3))" -gt 0 ] || {
eval "$1=0"
continue
}
append base_cfg "$1=1" "$N"
done
IFS="$oifs"
}
mac80211_hostapd_setup_base() {
local phy="$1"
json_select config
[ "$auto_channel" -gt 0 ] && channel=acs_survey
[ "$auto_channel" -gt 0 ] && json_get_vars acs_exclude_dfs
[ -n "$acs_exclude_dfs" ] && [ "$acs_exclude_dfs" -gt 0 ] &&
append base_cfg "acs_exclude_dfs=1" "$N"
json_get_vars noscan ht_coex min_tx_power:0 tx_burst
json_get_values ht_capab_list ht_capab
json_get_values channel_list channels
[ "$auto_channel" = 0 ] && [ -z "$channel_list" ] && \
channel_list="$channel"
hostapd: introduce min_tx_power option Introduce a new option min_tx_power to configure the minimum permitted max TX power (in dBm) for ACS and DFS channel selection. Imagine the following regulatory rules: * 5180 MHz [36] (21.0 dBm) * 5200 MHz [40] (21.0 dBm) * 5220 MHz [44] (21.0 dBm) * 5240 MHz [48] (21.0 dBm) * 5260 MHz [52] (20.0 dBm) (radar detection) * 5280 MHz [56] (20.0 dBm) (radar detection) * 5300 MHz [60] (20.0 dBm) (radar detection) * 5320 MHz [64] (20.0 dBm) (radar detection) * 5500 MHz [100] (21.0 dBm) (radar detection) * 5520 MHz [104] (21.0 dBm) (radar detection) * 5540 MHz [108] (21.0 dBm) (radar detection) * 5560 MHz [112] (21.0 dBm) (radar detection) * 5580 MHz [116] (21.0 dBm) (radar detection) * 5600 MHz [120] (21.0 dBm) (radar detection) * 5620 MHz [124] (21.0 dBm) (radar detection) * 5640 MHz [128] (21.0 dBm) (radar detection) * 5660 MHz [132] (21.0 dBm) (radar detection) * 5680 MHz [136] (21.0 dBm) (radar detection) * 5700 MHz [140] (21.0 dBm) (radar detection) * 5720 MHz [144] (13.0 dBm) (radar detection) * 5745 MHz [149] (13.0 dBm) * 5765 MHz [153] (13.0 dBm) * 5785 MHz [157] (13.0 dBm) * 5805 MHz [161] (13.0 dBm) * 5825 MHz [165] (13.0 dBm) * 5845 MHz [169] (13.0 dBm) * 5865 MHz [173] (13.0 dBm) When ACS or DFS end up selecting channel 144 or higher, some clients might no longer be able to communicate with the AP due to the TX power being limited to 13 dBm. Setting min_tx_power to 20 will result in hostapd not considering these channels during ACS or after a DFS event. Signed-off-by: Stijn Tintel <stijn@linux-ipv6.be> Acked-by: David Bauer <mail@david-bauer.net>
2022-06-27 14:06:34 +00:00
[ "$min_tx_power" -gt 0 ] && append base_cfg "min_tx_power=$min_tx_power"
set_default noscan 0
[ "$noscan" -gt 0 ] && hostapd_noscan=1
[ "$tx_burst" = 0 ] && tx_burst=
chan_ofs=0
[ "$band" = "6g" ] && chan_ofs=1
ieee80211n=1
ht_capab=
case "$htmode" in
VHT20|HT20|HE20) ;;
HT40*|VHT40|VHT80|VHT160|HE40|HE80|HE160)
case "$hwmode" in
a)
case "$(( (($channel / 4) + $chan_ofs) % 2 ))" in
1) ht_capab="[HT40+]";;
0) ht_capab="[HT40-]";;
esac
;;
*)
case "$htmode" in
HT40+) ht_capab="[HT40+]";;
HT40-) ht_capab="[HT40-]";;
*)
if [ "$channel" -lt 7 ]; then
ht_capab="[HT40+]"
else
ht_capab="[HT40-]"
fi
;;
esac
;;
esac
[ "$auto_channel" -gt 0 ] && ht_capab="[HT40+]"
;;
*) ieee80211n= ;;
esac
[ -n "$ieee80211n" ] && {
append base_cfg "ieee80211n=1" "$N"
set_default ht_coex 0
append base_cfg "ht_coex=$ht_coex" "$N"
json_get_vars \
ldpc:1 \
greenfield:0 \
short_gi_20:1 \
short_gi_40:1 \
tx_stbc:1 \
rx_stbc:3 \
max_amsdu:1 \
dsss_cck_40:1
ht_cap_mask=0
for cap in $(iw phy "$phy" info | grep 'Capabilities:' | cut -d: -f2); do
ht_cap_mask="$(($ht_cap_mask | $cap))"
done
cap_rx_stbc=$((($ht_cap_mask >> 8) & 3))
[ "$rx_stbc" -lt "$cap_rx_stbc" ] && cap_rx_stbc="$rx_stbc"
ht_cap_mask="$(( ($ht_cap_mask & ~(0x300)) | ($cap_rx_stbc << 8) ))"
mac80211_add_capabilities ht_capab_flags $ht_cap_mask \
LDPC:0x1::$ldpc \
GF:0x10::$greenfield \
SHORT-GI-20:0x20::$short_gi_20 \
SHORT-GI-40:0x40::$short_gi_40 \
TX-STBC:0x80::$tx_stbc \
RX-STBC1:0x300:0x100:1 \
RX-STBC12:0x300:0x200:1 \
RX-STBC123:0x300:0x300:1 \
MAX-AMSDU-7935:0x800::$max_amsdu \
DSSS_CCK-40:0x1000::$dsss_cck_40
ht_capab="$ht_capab$ht_capab_flags"
[ -n "$ht_capab" ] && append base_cfg "ht_capab=$ht_capab" "$N"
}
# 802.11ac
enable_ac=0
vht_oper_chwidth=0
vht_center_seg0=
idx="$channel"
case "$htmode" in
VHT20|HE20) enable_ac=1;;
VHT40|HE40)
case "$(( (($channel / 4) + $chan_ofs) % 2 ))" in
1) idx=$(($channel + 2));;
0) idx=$(($channel - 2));;
esac
enable_ac=1
vht_center_seg0=$idx
;;
VHT80|HE80)
case "$(( (($channel / 4) + $chan_ofs) % 4 ))" in
1) idx=$(($channel + 6));;
2) idx=$(($channel + 2));;
3) idx=$(($channel - 2));;
0) idx=$(($channel - 6));;
esac
enable_ac=1
vht_oper_chwidth=1
vht_center_seg0=$idx
;;
VHT160|HE160)
if [ "$band" = "6g" ]; then
case "$channel" in
1|5|9|13|17|21|25|29) idx=15;;
33|37|41|45|49|53|57|61) idx=47;;
65|69|73|77|81|85|89|93) idx=79;;
97|101|105|109|113|117|121|125) idx=111;;
129|133|137|141|145|149|153|157) idx=143;;
161|165|169|173|177|181|185|189) idx=175;;
193|197|201|205|209|213|217|221) idx=207;;
esac
else
case "$channel" in
36|40|44|48|52|56|60|64) idx=50;;
100|104|108|112|116|120|124|128) idx=114;;
esac
fi
enable_ac=1
vht_oper_chwidth=2
vht_center_seg0=$idx
;;
esac
[ "$band" = "5g" ] && {
json_get_vars background_radar:0
[ "$background_radar" -eq 1 ] && append base_cfg "enable_background_radar=1" "$N"
}
[ "$band" = "6g" ] && {
op_class=
case "$htmode" in
HE20) op_class=131;;
HE*) op_class=$((132 + $vht_oper_chwidth))
esac
[ -n "$op_class" ] && append base_cfg "op_class=$op_class" "$N"
}
[ "$hwmode" = "a" ] || enable_ac=0
if [ "$enable_ac" != "0" ]; then
json_get_vars \
rxldpc:1 \
short_gi_80:1 \
short_gi_160:1 \
tx_stbc_2by1:1 \
su_beamformer:1 \
su_beamformee:1 \
mu_beamformer:1 \
mu_beamformee:1 \
vht_txop_ps:1 \
htc_vht:1 \
beamformee_antennas:4 \
beamformer_antennas:4 \
rx_antenna_pattern:1 \
tx_antenna_pattern:1 \
vht_max_a_mpdu_len_exp:7 \
vht_max_mpdu:11454 \
rx_stbc:4 \
vht_link_adapt:3 \
vht160:2
set_default tx_burst 2.0
append base_cfg "ieee80211ac=1" "$N"
vht_cap=0
for cap in $(iw phy "$phy" info | awk -F "[()]" '/VHT Capabilities/ { print $2 }'); do
vht_cap="$(($vht_cap | $cap))"
done
append base_cfg "vht_oper_chwidth=$vht_oper_chwidth" "$N"
append base_cfg "vht_oper_centr_freq_seg0_idx=$vht_center_seg0" "$N"
cap_rx_stbc=$((($vht_cap >> 8) & 7))
[ "$rx_stbc" -lt "$cap_rx_stbc" ] && cap_rx_stbc="$rx_stbc"
vht_cap="$(( ($vht_cap & ~(0x700)) | ($cap_rx_stbc << 8) ))"
mac80211_add_capabilities vht_capab $vht_cap \
RXLDPC:0x10::$rxldpc \
SHORT-GI-80:0x20::$short_gi_80 \
SHORT-GI-160:0x40::$short_gi_160 \
TX-STBC-2BY1:0x80::$tx_stbc_2by1 \
SU-BEAMFORMER:0x800::$su_beamformer \
SU-BEAMFORMEE:0x1000::$su_beamformee \
MU-BEAMFORMER:0x80000::$mu_beamformer \
MU-BEAMFORMEE:0x100000::$mu_beamformee \
VHT-TXOP-PS:0x200000::$vht_txop_ps \
HTC-VHT:0x400000::$htc_vht \
RX-ANTENNA-PATTERN:0x10000000::$rx_antenna_pattern \
TX-ANTENNA-PATTERN:0x20000000::$tx_antenna_pattern \
RX-STBC-1:0x700:0x100:1 \
RX-STBC-12:0x700:0x200:1 \
RX-STBC-123:0x700:0x300:1 \
RX-STBC-1234:0x700:0x400:1 \
[ "$(($vht_cap & 0x800))" -gt 0 -a "$su_beamformer" -gt 0 ] && {
cap_ant="$(( ( ($vht_cap >> 16) & 3 ) + 1 ))"
[ "$cap_ant" -gt "$beamformer_antennas" ] && cap_ant="$beamformer_antennas"
[ "$cap_ant" -gt 1 ] && vht_capab="$vht_capab[SOUNDING-DIMENSION-$cap_ant]"
}
[ "$(($vht_cap & 0x1000))" -gt 0 -a "$su_beamformee" -gt 0 ] && {
cap_ant="$(( ( ($vht_cap >> 13) & 3 ) + 1 ))"
[ "$cap_ant" -gt "$beamformee_antennas" ] && cap_ant="$beamformee_antennas"
[ "$cap_ant" -gt 1 ] && vht_capab="$vht_capab[BF-ANTENNA-$cap_ant]"
}
# supported Channel widths
vht160_hw=0
[ "$(($vht_cap & 12))" -eq 4 -a 1 -le "$vht160" ] && \
vht160_hw=1
[ "$(($vht_cap & 12))" -eq 8 -a 2 -le "$vht160" ] && \
vht160_hw=2
[ "$vht160_hw" = 1 ] && vht_capab="$vht_capab[VHT160]"
[ "$vht160_hw" = 2 ] && vht_capab="$vht_capab[VHT160-80PLUS80]"
# maximum MPDU length
vht_max_mpdu_hw=3895
[ "$(($vht_cap & 3))" -ge 1 -a 7991 -le "$vht_max_mpdu" ] && \
vht_max_mpdu_hw=7991
[ "$(($vht_cap & 3))" -ge 2 -a 11454 -le "$vht_max_mpdu" ] && \
vht_max_mpdu_hw=11454
[ "$vht_max_mpdu_hw" != 3895 ] && \
vht_capab="$vht_capab[MAX-MPDU-$vht_max_mpdu_hw]"
# maximum A-MPDU length exponent
vht_max_a_mpdu_len_exp_hw=0
[ "$(($vht_cap & 58720256))" -ge 8388608 -a 1 -le "$vht_max_a_mpdu_len_exp" ] && \
vht_max_a_mpdu_len_exp_hw=1
[ "$(($vht_cap & 58720256))" -ge 16777216 -a 2 -le "$vht_max_a_mpdu_len_exp" ] && \
vht_max_a_mpdu_len_exp_hw=2
[ "$(($vht_cap & 58720256))" -ge 25165824 -a 3 -le "$vht_max_a_mpdu_len_exp" ] && \
vht_max_a_mpdu_len_exp_hw=3
[ "$(($vht_cap & 58720256))" -ge 33554432 -a 4 -le "$vht_max_a_mpdu_len_exp" ] && \
vht_max_a_mpdu_len_exp_hw=4
[ "$(($vht_cap & 58720256))" -ge 41943040 -a 5 -le "$vht_max_a_mpdu_len_exp" ] && \
vht_max_a_mpdu_len_exp_hw=5
[ "$(($vht_cap & 58720256))" -ge 50331648 -a 6 -le "$vht_max_a_mpdu_len_exp" ] && \
vht_max_a_mpdu_len_exp_hw=6
[ "$(($vht_cap & 58720256))" -ge 58720256 -a 7 -le "$vht_max_a_mpdu_len_exp" ] && \
vht_max_a_mpdu_len_exp_hw=7
vht_capab="$vht_capab[MAX-A-MPDU-LEN-EXP$vht_max_a_mpdu_len_exp_hw]"
# whether or not the STA supports link adaptation using VHT variant
vht_link_adapt_hw=0
[ "$(($vht_cap & 201326592))" -ge 134217728 -a 2 -le "$vht_link_adapt" ] && \
vht_link_adapt_hw=2
[ "$(($vht_cap & 201326592))" -ge 201326592 -a 3 -le "$vht_link_adapt" ] && \
vht_link_adapt_hw=3
[ "$vht_link_adapt_hw" != 0 ] && \
vht_capab="$vht_capab[VHT-LINK-ADAPT-$vht_link_adapt_hw]"
[ -n "$vht_capab" ] && append base_cfg "vht_capab=$vht_capab" "$N"
fi
# 802.11ax
enable_ax=0
case "$htmode" in
HE*) enable_ax=1 ;;
esac
if [ "$enable_ax" != "0" ]; then
json_get_vars \
he_su_beamformer:1 \
he_su_beamformee:1 \
he_mu_beamformer:1 \
he_twt_required:0 \
he_spr_sr_control:3 \
he_spr_psr_enabled:0 \
he_spr_non_srg_obss_pd_max_offset:0 \
he_bss_color:128 \
he_bss_color_enabled:1
he_phy_cap=$(iw phy "$phy" info | sed -n '/HE Iftypes: AP/,$p' | awk -F "[()]" '/HE PHY Capabilities/ { print $2 }' | head -1)
he_phy_cap=${he_phy_cap:2}
he_mac_cap=$(iw phy "$phy" info | sed -n '/HE Iftypes: AP/,$p' | awk -F "[()]" '/HE MAC Capabilities/ { print $2 }' | head -1)
he_mac_cap=${he_mac_cap:2}
append base_cfg "ieee80211ax=1" "$N"
[ "$hwmode" = "a" ] && {
append base_cfg "he_oper_chwidth=$vht_oper_chwidth" "$N"
append base_cfg "he_oper_centr_freq_seg0_idx=$vht_center_seg0" "$N"
}
mac80211_add_he_capabilities \
he_su_beamformer:${he_phy_cap:6:2}:0x80:$he_su_beamformer \
he_su_beamformee:${he_phy_cap:8:2}:0x1:$he_su_beamformee \
he_mu_beamformer:${he_phy_cap:8:2}:0x2:$he_mu_beamformer \
he_spr_psr_enabled:${he_phy_cap:14:2}:0x1:$he_spr_psr_enabled \
he_twt_required:${he_mac_cap:0:2}:0x6:$he_twt_required
if [ "$he_bss_color_enabled" -gt 0 ]; then
append base_cfg "he_bss_color=$he_bss_color" "$N"
[ "$he_spr_non_srg_obss_pd_max_offset" -gt 0 ] && { \
append base_cfg "he_spr_non_srg_obss_pd_max_offset=$he_spr_non_srg_obss_pd_max_offset" "$N"
he_spr_sr_control=$((he_spr_sr_control | (1 << 2)))
}
[ "$he_spr_psr_enabled" -gt 0 ] || he_spr_sr_control=$((he_spr_sr_control | (1 << 0)))
append base_cfg "he_spr_sr_control=$he_spr_sr_control" "$N"
else
append base_cfg "he_bss_color_disabled=1" "$N"
fi
append base_cfg "he_default_pe_duration=4" "$N"
append base_cfg "he_rts_threshold=1023" "$N"
append base_cfg "he_mu_edca_qos_info_param_count=0" "$N"
append base_cfg "he_mu_edca_qos_info_q_ack=0" "$N"
append base_cfg "he_mu_edca_qos_info_queue_request=0" "$N"
append base_cfg "he_mu_edca_qos_info_txop_request=0" "$N"
append base_cfg "he_mu_edca_ac_be_aifsn=8" "$N"
append base_cfg "he_mu_edca_ac_be_aci=0" "$N"
append base_cfg "he_mu_edca_ac_be_ecwmin=9" "$N"
append base_cfg "he_mu_edca_ac_be_ecwmax=10" "$N"
append base_cfg "he_mu_edca_ac_be_timer=255" "$N"
append base_cfg "he_mu_edca_ac_bk_aifsn=15" "$N"
append base_cfg "he_mu_edca_ac_bk_aci=1" "$N"
append base_cfg "he_mu_edca_ac_bk_ecwmin=9" "$N"
append base_cfg "he_mu_edca_ac_bk_ecwmax=10" "$N"
append base_cfg "he_mu_edca_ac_bk_timer=255" "$N"
append base_cfg "he_mu_edca_ac_vi_ecwmin=5" "$N"
append base_cfg "he_mu_edca_ac_vi_ecwmax=7" "$N"
append base_cfg "he_mu_edca_ac_vi_aifsn=5" "$N"
append base_cfg "he_mu_edca_ac_vi_aci=2" "$N"
append base_cfg "he_mu_edca_ac_vi_timer=255" "$N"
append base_cfg "he_mu_edca_ac_vo_aifsn=5" "$N"
append base_cfg "he_mu_edca_ac_vo_aci=3" "$N"
append base_cfg "he_mu_edca_ac_vo_ecwmin=5" "$N"
append base_cfg "he_mu_edca_ac_vo_ecwmax=7" "$N"
append base_cfg "he_mu_edca_ac_vo_timer=255" "$N"
fi
hostapd_prepare_device_config "$hostapd_conf_file" nl80211
cat >> "$hostapd_conf_file" <<EOF
${channel:+channel=$channel}
${channel_list:+chanlist=$channel_list}
${hostapd_noscan:+noscan=1}
${tx_burst:+tx_queue_data2_burst=$tx_burst}
$base_cfg
EOF
json_select ..
radio_md5sum=$(md5sum $hostapd_conf_file | cut -d" " -f1)
echo "radio_config_id=${radio_md5sum}" >> $hostapd_conf_file
}
mac80211_hostapd_setup_bss() {
local phy="$1"
local ifname="$2"
local macaddr="$3"
local type="$4"
hostapd_cfg=
append hostapd_cfg "$type=$ifname" "$N"
hostapd_set_bss_options hostapd_cfg "$phy" "$vif" || return 1
json_get_vars wds wds_bridge dtim_period max_listen_int start_disabled
set_default wds 0
set_default start_disabled 0
[ "$wds" -gt 0 ] && {
append hostapd_cfg "wds_sta=1" "$N"
[ -n "$wds_bridge" ] && append hostapd_cfg "wds_bridge=$wds_bridge" "$N"
}
[ "$staidx" -gt 0 -o "$start_disabled" -eq 1 ] && append hostapd_cfg "start_disabled=1" "$N"
cat >> /var/run/hostapd-$phy.conf <<EOF
$hostapd_cfg
bssid=$macaddr
${dtim_period:+dtim_period=$dtim_period}
${max_listen_int:+max_listen_interval=$max_listen_int}
EOF
}
mac80211_get_addr() {
local phy="$1"
local idx="$(($2 + 1))"
head -n $idx /sys/class/ieee80211/${phy}/addresses | tail -n1
}
mac80211_generate_mac() {
local phy="$1"
local id="${macidx:-0}"
local ref="$(cat /sys/class/ieee80211/${phy}/macaddress)"
local mask="$(cat /sys/class/ieee80211/${phy}/address_mask)"
[ "$mask" = "00:00:00:00:00:00" ] && {
mask="ff:ff:ff:ff:ff:ff";
[ "$(wc -l < /sys/class/ieee80211/${phy}/addresses)" -gt $id ] && {
addr="$(mac80211_get_addr "$phy" "$id")"
[ -n "$addr" ] && {
echo "$addr"
return
}
}
}
local oIFS="$IFS"; IFS=":"; set -- $mask; IFS="$oIFS"
local mask1=$1
local mask6=$6
local oIFS="$IFS"; IFS=":"; set -- $ref; IFS="$oIFS"
macidx=$(($id + 1))
[ "$((0x$mask1))" -gt 0 ] && {
b1="0x$1"
[ "$id" -gt 0 ] && \
b1=$(($b1 ^ ((($id - !($b1 & 2)) << 2)) | 0x2))
printf "%02x:%s:%s:%s:%s:%s" $b1 $2 $3 $4 $5 $6
return
}
[ "$((0x$mask6))" -lt 255 ] && {
printf "%s:%s:%s:%s:%s:%02x" $1 $2 $3 $4 $5 $(( 0x$6 ^ $id ))
return
}
off2=$(( (0x$6 + $id) / 0x100 ))
printf "%s:%s:%s:%s:%02x:%02x" \
$1 $2 $3 $4 \
$(( (0x$5 + $off2) % 0x100 )) \
$(( (0x$6 + $id) % 0x100 ))
}
find_phy() {
[ -n "$phy" -a -d /sys/class/ieee80211/$phy ] && return 0
[ -n "$path" ] && {
phy="$(iwinfo nl80211 phyname "path=$path")"
[ -n "$phy" ] && return 0
}
[ -n "$macaddr" ] && {
for phy in $(ls /sys/class/ieee80211 2>/dev/null); do
grep -i -q "$macaddr" "/sys/class/ieee80211/${phy}/macaddress" && return 0
done
}
return 1
}
mac80211_check_ap() {
has_ap=1
}
2017-03-14 13:45:15 +00:00
mac80211_iw_interface_add() {
local phy="$1"
local ifname="$2"
local type="$3"
local wdsflag="$4"
local rc
local oldifname
2017-03-14 13:45:15 +00:00
iw phy "$phy" interface add "$ifname" type "$type" $wdsflag >/dev/null 2>&1
2017-03-14 13:45:15 +00:00
rc="$?"
[ "$rc" = 233 ] && {
# Device might have just been deleted, give the kernel some time to finish cleaning it up
sleep 1
iw phy "$phy" interface add "$ifname" type "$type" $wdsflag >/dev/null 2>&1
2017-03-14 13:45:15 +00:00
rc="$?"
}
[ "$rc" = 233 ] && {
# Keep matching pre-existing interface
[ -d "/sys/class/ieee80211/${phy}/device/net/${ifname}" ] && \
case "$(iw dev $ifname info | grep "^\ttype" | cut -d' ' -f2- 2>/dev/null)" in
"AP")
[ "$type" = "__ap" ] && rc=0
;;
"IBSS")
[ "$type" = "adhoc" ] && rc=0
;;
"managed")
[ "$type" = "managed" ] && rc=0
;;
"mesh point")
[ "$type" = "mp" ] && rc=0
;;
"monitor")
[ "$type" = "monitor" ] && rc=0
;;
esac
}
[ "$rc" = 233 ] && {
iw dev "$ifname" del >/dev/null 2>&1
[ "$?" = 0 ] && {
sleep 1
iw phy "$phy" interface add "$ifname" type "$type" $wdsflag >/dev/null 2>&1
rc="$?"
}
}
[ "$rc" != 0 ] && {
# Device might not support virtual interfaces, so the interface never got deleted in the first place.
# Check if the interface already exists, and avoid failing in this case.
[ -d "/sys/class/ieee80211/${phy}/device/net/${ifname}" ] && rc=0
}
[ "$rc" != 0 ] && {
# Device doesn't support virtual interfaces and may have existing interface other than ifname.
oldifname="$(basename "/sys/class/ieee80211/${phy}/device/net"/* 2>/dev/null)"
[ "$oldifname" ] && ip link set "$oldifname" name "$ifname" 1>/dev/null 2>&1
rc="$?"
}
[ "$rc" != 0 ] && echo "Failed to create interface $ifname"
2017-03-14 13:45:15 +00:00
return $rc
}
mac80211_set_ifname() {
local phy="$1"
local prefix="$2"
eval "ifname=\"$phy-$prefix\${idx_$prefix:-0}\"; idx_$prefix=\$((\${idx_$prefix:-0 } + 1))"
}
mac80211_prepare_vif() {
json_select config
json_get_vars ifname mode ssid wds powersave macaddr enable wpa_psk_file vlan_file
[ -n "$ifname" ] || {
local prefix;
case "$mode" in
ap|sta|mesh) prefix=$mode;;
adhoc) prefix=ibss;;
monitor) prefix=mon;;
esac
mac80211_set_ifname "$phy" "$prefix"
}
set_default wds 0
set_default powersave 0
json_select ..
if [ -z "$macaddr" ]; then
macaddr="$(mac80211_generate_mac $phy)"
macidx="$(($macidx + 1))"
elif [ "$macaddr" = 'random' ]; then
macaddr="$(macaddr_random)"
fi
json_add_object data
json_add_string ifname "$ifname"
json_close_object
[ "$mode" == "ap" ] && {
[ -z "$wpa_psk_file" ] && hostapd_set_psk "$ifname"
[ -z "$vlan_file" ] && hostapd_set_vlan "$ifname"
}
json_select config
# It is far easier to delete and create the desired interface
case "$mode" in
adhoc)
2017-03-14 13:45:15 +00:00
mac80211_iw_interface_add "$phy" "$ifname" adhoc || return
;;
ap)
# Hostapd will handle recreating the interface and
# subsequent virtual APs belonging to the same PHY
if [ -n "$hostapd_ctrl" ]; then
type=bss
else
type=interface
fi
mac80211_hostapd_setup_bss "$phy" "$ifname" "$macaddr" "$type" || return
NEWAPLIST="${NEWAPLIST}$ifname "
[ -n "$hostapd_ctrl" ] || {
ap_ifname="${ifname}"
hostapd_ctrl="${hostapd_ctrl:-/var/run/hostapd/$ifname}"
}
;;
mesh)
2017-03-14 13:45:15 +00:00
mac80211_iw_interface_add "$phy" "$ifname" mp || return
;;
monitor)
2017-03-14 13:45:15 +00:00
mac80211_iw_interface_add "$phy" "$ifname" monitor || return
;;
sta)
local wdsflag=
[ "$enable" = 0 ] || staidx="$(($staidx + 1))"
[ "$wds" -gt 0 ] && wdsflag="4addr on"
2017-03-14 13:45:15 +00:00
mac80211_iw_interface_add "$phy" "$ifname" managed "$wdsflag" || return
if [ "$wds" -gt 0 ]; then
iw "$ifname" set 4addr on
else
iw "$ifname" set 4addr off
fi
[ "$powersave" -gt 0 ] && powersave="on" || powersave="off"
iw "$ifname" set power_save "$powersave"
;;
esac
case "$mode" in
monitor|mesh)
[ "$auto_channel" -gt 0 ] || iw dev "$ifname" set channel "$channel" $iw_htmode
;;
esac
if [ "$mode" != "ap" ]; then
# ALL ap functionality will be passed to hostapd
# All interfaces must have unique mac addresses
# which can either be explicitly set in the device
# section, or automatically generated
ip link set dev "$ifname" address "$macaddr"
fi
json_select ..
}
mac80211_setup_supplicant() {
local enable=$1
local add_sp=0
local spobj="$(ubus -S list | grep wpa_supplicant.${ifname})"
[ "$enable" = 0 ] && {
ubus call wpa_supplicant.${phy} config_remove "{\"iface\":\"$ifname\"}"
ip link set dev "$ifname" down
iw dev "$ifname" del
return 0
}
wpa_supplicant_prepare_interface "$ifname" nl80211 || {
iw dev "$ifname" del
return 1
}
if [ "$mode" = "sta" ]; then
wpa_supplicant_add_network "$ifname"
else
wpa_supplicant_add_network "$ifname" "$freq" "$htmode" "$noscan"
fi
NEWSPLIST="${NEWSPLIST}$ifname "
if [ "${NEWAPLIST%% *}" != "${OLDAPLIST%% *}" ]; then
[ "$spobj" ] && ubus call wpa_supplicant config_remove "{\"iface\":\"$ifname\"}"
add_sp=1
fi
[ -z "$spobj" ] && add_sp=1
NEW_MD5_SP=$(test -e "${_config}" && md5sum ${_config})
OLD_MD5_SP=$(uci -q -P /var/state get wireless._${phy}.md5_${ifname})
if [ "$add_sp" = "1" ]; then
wpa_supplicant_run "$ifname" "$hostapd_ctrl"
else
[ "${NEW_MD5_SP}" == "${OLD_MD5_SP}" ] || ubus call $spobj reload
fi
uci -q -P /var/state set wireless._${phy}.md5_${ifname}="${NEW_MD5_SP}"
return 0
}
mac80211_setup_supplicant_noctl() {
local enable=$1
local spobj="$(ubus -S list | grep wpa_supplicant.${ifname})"
wpa_supplicant_prepare_interface "$ifname" nl80211 || {
iw dev "$ifname" del
return 1
}
wpa_supplicant_add_network "$ifname" "$freq" "$htmode" "$noscan"
NEWSPLIST="${NEWSPLIST}$ifname "
[ "$enable" = 0 ] && {
ubus call wpa_supplicant config_remove "{\"iface\":\"$ifname\"}"
ip link set dev "$ifname" down
return 0
}
if [ -z "$spobj" ]; then
wpa_supplicant_run "$ifname"
else
ubus call $spobj reload
fi
}
mac80211_prepare_iw_htmode() {
case "$htmode" in
VHT20|HT20) iw_htmode=HT20;;
HT40*|VHT40|VHT160)
case "$band" in
2g)
case "$htmode" in
HT40+) iw_htmode="HT40+";;
HT40-) iw_htmode="HT40-";;
*)
if [ "$channel" -lt 7 ]; then
iw_htmode="HT40+"
else
iw_htmode="HT40-"
fi
;;
esac
;;
*)
case "$(( ($channel / 4) % 2 ))" in
1) iw_htmode="HT40+" ;;
0) iw_htmode="HT40-";;
esac
;;
esac
[ "$auto_channel" -gt 0 ] && iw_htmode="HT40+"
;;
VHT80)
iw_htmode="80MHZ"
;;
NONE|NOHT)
iw_htmode="NOHT"
;;
*) iw_htmode="" ;;
esac
}
mac80211_setup_adhoc() {
local enable=$1
json_get_vars bssid ssid key mcast_rate
NEWUMLIST="${NEWUMLIST}$ifname "
[ "$enable" = 0 ] && {
ip link set dev "$ifname" down
return 0
}
keyspec=
[ "$auth_type" = "wep" ] && {
set_default key 1
case "$key" in
[1234])
local idx
for idx in 1 2 3 4; do
json_get_var ikey "key$idx"
[ -n "$ikey" ] && {
ikey="$(($idx - 1)):$(prepare_key_wep "$ikey")"
[ $idx -eq $key ] && ikey="d:$ikey"
append keyspec "$ikey"
}
done
;;
*)
append keyspec "d:0:$(prepare_key_wep "$key")"
;;
esac
}
brstr=
for br in $basic_rate_list; do
wpa_supplicant_add_rate brstr "$br"
done
mcval=
[ -n "$mcast_rate" ] && wpa_supplicant_add_rate mcval "$mcast_rate"
iw dev "$ifname" set type ibss
iw dev "$ifname" ibss join "$ssid" $freq $iw_htmode fixed-freq $bssid \
beacon-interval $beacon_int \
${brstr:+basic-rates $brstr} \
${mcval:+mcast-rate $mcval} \
${keyspec:+keys $keyspec}
}
mac80211_setup_mesh() {
local enable=$1
json_get_vars ssid mesh_id mcast_rate
NEWUMLIST="${NEWUMLIST}$ifname "
[ "$enable" = 0 ] && {
ip link set dev "$ifname" down
return 0
}
mcval=
[ -n "$mcast_rate" ] && wpa_supplicant_add_rate mcval "$mcast_rate"
[ -n "$mesh_id" ] && ssid="$mesh_id"
iw dev "$ifname" mesh join "$ssid" freq $freq $iw_htmode \
${mcval:+mcast-rate $mcval} \
beacon-interval $beacon_int
}
mac80211_setup_vif() {
local name="$1"
local failed
local action=up
json_select data
json_get_vars ifname
json_select ..
json_select config
json_get_vars mode
json_get_var vif_txpower
json_get_var vif_enable enable 1
[ "$vif_enable" = 1 ] || action=down
if [ "$mode" != "ap" ] || [ "$ifname" = "$ap_ifname" ]; then
ip link set dev "$ifname" "$action" || {
wireless_setup_vif_failed IFUP_ERROR
json_select ..
return
}
[ -z "$vif_txpower" ] || iw dev "$ifname" set txpower fixed "${vif_txpower%%.*}00"
fi
case "$mode" in
mesh)
wireless_vif_parse_encryption
[ -z "$htmode" ] && htmode="NOHT";
if [ "$wpa" -gt 0 -o "$auto_channel" -gt 0 ] || chan_is_dfs "$phy" "$channel"; then
mac80211_setup_supplicant $vif_enable || failed=1
else
mac80211_setup_mesh $vif_enable
fi
for var in $MP_CONFIG_INT $MP_CONFIG_BOOL $MP_CONFIG_STRING; do
json_get_var mp_val "$var"
[ -n "$mp_val" ] && iw dev "$ifname" set mesh_param "$var" "$mp_val"
done
;;
adhoc)
wireless_vif_parse_encryption
if [ "$wpa" -gt 0 -o "$auto_channel" -gt 0 ]; then
mac80211_setup_supplicant_noctl $vif_enable || failed=1
else
mac80211_setup_adhoc $vif_enable
fi
;;
sta)
mac80211_setup_supplicant $vif_enable || failed=1
;;
esac
json_select ..
[ -n "$failed" ] || wireless_add_vif "$name" "$ifname"
}
get_freq() {
local phy="$1"
local channel="$2"
local band="$3"
case "$band" in
2g) band="1:";;
5g) band="2:";;
60g) band="3:";;
6g) band="4:";;
esac
iw "$phy" info | awk -v band="$band" -v channel="[$channel]" '
$1 ~ /Band/ {
band_match = band == $2
}
band_match && $3 == "MHz" && $4 == channel {
print $2
exit
}
'
}
chan_is_dfs() {
local phy="$1"
local chan="$2"
iw "$phy" info | grep -E -m1 "(\* ${chan:-....} MHz${chan:+|\\[$chan\\]})" | grep -q "MHz.*radar detection"
return $!
}
mac80211_vap_cleanup() {
local service="$1"
local vaps="$2"
for wdev in $vaps; do
[ "$service" != "none" ] && ubus call ${service} config_remove "{\"iface\":\"$wdev\"}"
ip link set dev "$wdev" down 2>/dev/null
iw dev "$wdev" del
done
}
mac80211_interface_cleanup() {
local phy="$1"
local primary_ap=$(uci -q -P /var/state get wireless._${phy}.aplist)
primary_ap=${primary_ap%% *}
mac80211_vap_cleanup hostapd "${primary_ap}"
mac80211_vap_cleanup wpa_supplicant "$(uci -q -P /var/state get wireless._${phy}.splist)"
mac80211_vap_cleanup none "$(uci -q -P /var/state get wireless._${phy}.umlist)"
}
mac80211_set_noscan() {
hostapd_noscan=1
}
drv_mac80211_cleanup() {
hostapd_common_cleanup
}
drv_mac80211_setup() {
json_select config
json_get_vars \
phy macaddr path \
country chanbw distance \
txpower antenna_gain \
rxantenna txantenna \
frag rts beacon_int:100 htmode
json_get_values basic_rate_list basic_rate
json_get_values scan_list scan_list
json_select ..
find_phy || {
echo "Could not find PHY for device '$1'"
wireless_set_retry 0
return 1
}
wireless_set_data phy="$phy"
[ -z "$(uci -q -P /var/state show wireless._${phy})" ] && uci -q -P /var/state set wireless._${phy}=phy
OLDAPLIST=$(uci -q -P /var/state get wireless._${phy}.aplist)
OLDSPLIST=$(uci -q -P /var/state get wireless._${phy}.splist)
OLDUMLIST=$(uci -q -P /var/state get wireless._${phy}.umlist)
local wdev
local cwdev
local found
for wdev in $(list_phy_interfaces "$phy"); do
found=0
for cwdev in $OLDAPLIST $OLDSPLIST $OLDUMLIST; do
if [ "$wdev" = "$cwdev" ]; then
found=1
break
fi
done
if [ "$found" = "0" ]; then
ip link set dev "$wdev" down
iw dev "$wdev" del
fi
done
# convert channel to frequency
[ "$auto_channel" -gt 0 ] || freq="$(get_freq "$phy" "$channel" "$band")"
[ -n "$country" ] && {
iw reg get | grep -q "^country $country:" || {
iw reg set "$country"
sleep 1
}
}
hostapd_conf_file="/var/run/hostapd-$phy.conf"
no_ap=1
macidx=0
staidx=0
[ -n "$chanbw" ] && {
for file in /sys/kernel/debug/ieee80211/$phy/ath9k*/chanbw /sys/kernel/debug/ieee80211/$phy/ath5k/bwmode; do
[ -f "$file" ] && echo "$chanbw" > "$file"
done
}
set_default rxantenna 0xffffffff
set_default txantenna 0xffffffff
set_default distance 0
set_default antenna_gain 0
[ "$txantenna" = "all" ] && txantenna=0xffffffff
[ "$rxantenna" = "all" ] && rxantenna=0xffffffff
iw phy "$phy" set antenna $txantenna $rxantenna >/dev/null 2>&1
iw phy "$phy" set antenna_gain $antenna_gain >/dev/null 2>&1
iw phy "$phy" set distance "$distance" >/dev/null 2>&1
if [ -n "$txpower" ]; then
iw phy "$phy" set txpower fixed "${txpower%%.*}00"
else
iw phy "$phy" set txpower auto
fi
[ -n "$frag" ] && iw phy "$phy" set frag "${frag%%.*}"
[ -n "$rts" ] && iw phy "$phy" set rts "${rts%%.*}"
has_ap=
hostapd_ctrl=
ap_ifname=
hostapd_noscan=
for_each_interface "ap" mac80211_check_ap
rm -f "$hostapd_conf_file"
for_each_interface "sta adhoc mesh" mac80211_set_noscan
[ -n "$has_ap" ] && mac80211_hostapd_setup_base "$phy"
mac80211_prepare_iw_htmode
for_each_interface "sta adhoc mesh monitor" mac80211_prepare_vif
NEWAPLIST=
for_each_interface "ap" mac80211_prepare_vif
NEW_MD5=$(test -e "${hostapd_conf_file}" && md5sum ${hostapd_conf_file})
OLD_MD5=$(uci -q -P /var/state get wireless._${phy}.md5)
if [ "${NEWAPLIST}" != "${OLDAPLIST}" ]; then
mac80211_vap_cleanup hostapd "${OLDAPLIST}"
fi
[ -n "${NEWAPLIST}" ] && mac80211_iw_interface_add "$phy" "${NEWAPLIST%% *}" __ap
local add_ap=0
local primary_ap=${NEWAPLIST%% *}
[ -n "$hostapd_ctrl" ] && {
local no_reload=1
if [ -n "$(ubus list | grep hostapd.$primary_ap)" ]; then
mac80211: fix no_reload logic (FS#3902) If drv_mac80211_setup is called twice with the same wifi configuration, then the second call returns early with error HOSTAPD_START_FAILED. (wifi works nevertheless, despite the fact that setup is incomplete. But "ubus call network.wireless status" erroneously reports that radio0 is down.) The relevant part of drv_mac80211_setup is, if [ "$no_reload" != "0" ]; then add_ap=1 ubus wait_for hostapd local hostapd_res="$(ubus call hostapd config_add "{\"iface\":\"$primary_ap\", \"config\":\"${hostapd_conf_file}\"}")" ret="$?" [ "$ret" != 0 -o -z "$hostapd_res" ] && { wireless_setup_failed HOSTAPD_START_FAILED return } wireless_add_process "$(jsonfilter -s "$hostapd_res" -l 1 -e @.pid)" "/usr/sbin/hostapd" 1 1 fi This commit sets no_reload = 0 during the second call of drv_mac80211_setup. It is perhaps worth providing a way to reproduce the situation where drv_mac80211_setup is called twice. When /sbin/wifi is used to turn on wifi, uci set wireless.@wifi-iface[0].disabled=0 uci set wireless.@wifi-device[0].disabled=0 uci commit wifi /sbin/wifi makes the following ubus calls, ubus call network reload ubus call network.wireless down ubus call network.wireless up The first and third ubus calls both call drv_mac80211_setup, while the second ubus call triggers wireless_device_setup_cancel. So the call sequence becomes, drv_mac80211_setup wireless_device_setup_cancel drv_mac80211_setup In contrast, when LuCI is used to turn on wifi only a single call is made to drv_mac80211_setup. branches affected: trunk, 21.02 Signed-off-by: Bob Cantor <coxede6557@w3boats.com>
2021-06-24 17:18:33 +00:00
no_reload=0
[ "${NEW_MD5}" = "${OLD_MD5}" ] || {
ubus call hostapd.$primary_ap reload
no_reload=$?
if [ "$no_reload" != "0" ]; then
mac80211_vap_cleanup hostapd "${OLDAPLIST}"
mac80211_vap_cleanup wpa_supplicant "$(uci -q -P /var/state get wireless._${phy}.splist)"
mac80211_vap_cleanup none "$(uci -q -P /var/state get wireless._${phy}.umlist)"
sleep 2
mac80211_iw_interface_add "$phy" "${NEWAPLIST%% *}" __ap
for_each_interface "sta adhoc mesh monitor" mac80211_prepare_vif
fi
}
fi
if [ "$no_reload" != "0" ]; then
add_ap=1
ubus wait_for hostapd
local hostapd_res="$(ubus call hostapd config_add "{\"iface\":\"$primary_ap\", \"config\":\"${hostapd_conf_file}\"}")"
ret="$?"
[ "$ret" != 0 -o -z "$hostapd_res" ] && {
wireless_setup_failed HOSTAPD_START_FAILED
return
}
wireless_add_process "$(jsonfilter -s "$hostapd_res" -l 1 -e @.pid)" "/usr/sbin/hostapd" 1 1
fi
}
uci -q -P /var/state set wireless._${phy}.aplist="${NEWAPLIST}"
uci -q -P /var/state set wireless._${phy}.md5="${NEW_MD5}"
[ "${add_ap}" = 1 ] && sleep 1
for_each_interface "ap" mac80211_setup_vif
NEWSPLIST=
NEWUMLIST=
for_each_interface "sta adhoc mesh monitor" mac80211_setup_vif
uci -q -P /var/state set wireless._${phy}.splist="${NEWSPLIST}"
uci -q -P /var/state set wireless._${phy}.umlist="${NEWUMLIST}"
local foundvap
local dropvap=""
for oldvap in $OLDSPLIST; do
foundvap=0
for newvap in $NEWSPLIST; do
[ "$oldvap" = "$newvap" ] && foundvap=1
done
[ "$foundvap" = "0" ] && dropvap="$dropvap $oldvap"
done
[ -n "$dropvap" ] && mac80211_vap_cleanup wpa_supplicant "$dropvap"
wireless_set_up
}
_list_phy_interfaces() {
local phy="$1"
if [ -d "/sys/class/ieee80211/${phy}/device/net" ]; then
ls "/sys/class/ieee80211/${phy}/device/net" 2>/dev/null;
else
ls "/sys/class/ieee80211/${phy}/device" 2>/dev/null | grep net: | sed -e 's,net:,,g'
fi
}
list_phy_interfaces() {
local phy="$1"
for dev in $(_list_phy_interfaces "$phy"); do
readlink "/sys/class/net/${dev}/phy80211" | grep -q "/${phy}\$" || continue
echo "$dev"
done
}
drv_mac80211_teardown() {
json_select data
json_get_vars phy
json_select ..
[ -n "$phy" ] || {
echo "Bug: PHY is undefined for device '$1'"
return 1
}
mac80211_interface_cleanup "$phy"
uci -q -P /var/state revert wireless._${phy}
}
add_driver mac80211