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DHDAXCW-Rockchip-OpenWrt/package/kernel/mac80211/files/lib/netifd/wireless/mac80211.sh
coolsnowwolf 88beed4c56 mac80211: netifd: Use a mask when using Usage: iw [options] command 
Options:
	--debug		enable netlink debugging
	--version	show version (3.4)
Commands:
	help [command]
		Print usage for all or a specific command, e.g.
		"help wowlan" or "help wowlan enable".

	event [-t] [-r] [-f]
		Monitor events from the kernel.
		-t - print timestamp
		-r - print relative timstamp
		-f - print full frame for auth/assoc etc.

	phy
	list
		List all wireless devices and their capabilities.

	phy <phyname> info
		Show capabilities for the specified wireless device.

	dev
		List all network interfaces for wireless hardware.

	dev <devname> info
		Show information for this interface.

	dev <devname> del
		Remove this virtual interface

	dev <devname> interface add <name> type <type> [mesh_id <meshid>] [4addr on|off] [flags <flag>*]
	phy <phyname> interface add <name> type <type> [mesh_id <meshid>] [4addr on|off] [flags <flag>*]
		Add a new virtual interface with the given configuration.
		Valid interface types are: managed, ibss, monitor, mesh, wds.

		The flags are only used for monitor interfaces, valid flags are:
		none:     no special flags
		fcsfail:  show frames with FCS errors
		control:  show control frames
		otherbss: show frames from other BSSes
		cook:     use cooked mode

		The mesh_id is used only for mesh mode.

	dev <devname> ibss join <SSID> <freq in MHz> [HT20|HT40+|HT40-|NOHT] [fixed-freq] [<fixed bssid>] [beacon-interval <TU>] [basic-rates <rate in Mbps,rate2,...>] [mcast-rate <rate in Mbps>] [key d:0:abcde]
		Join the IBSS cell with the given SSID, if it doesn't exist create
		it on the given frequency. When fixed frequency is requested, don't
		join/create a cell on a different frequency. When a fixed BSSID is
		requested use that BSSID and do not adopt another cell's BSSID even
		if it has higher TSF and the same SSID. If an IBSS is created, create
		it with the specified basic-rates, multicast-rate and beacon-interval.

	dev <devname> ibss leave
		Leave the current IBSS cell.

	dev <devname> station dump
		List all stations known, e.g. the AP on managed interfaces

	dev <devname> station set <MAC address> vlan <ifindex>
		Set an AP VLAN for this station.

	dev <devname> station set <MAC address> plink_action <open|block>
		Set mesh peer link action for this station (peer).

	dev <devname> station del <MAC address>
		Remove the given station entry (use with caution!)

	dev <devname> station get <MAC address>
		Get information for a specific station.

	dev <devname> survey dump
		List all gathered channel survey data

	dev <devname> mesh leave
		Leave a mesh.

	dev <devname> mesh join <mesh ID> [mcast-rate <rate in Mbps>] [<param>=<value>]*
		Join a mesh with the given mesh ID with mcast-rate and mesh parameters.

	dev <devname> mpath dump
		List known mesh paths.

	dev <devname> mpath set <destination MAC address> next_hop <next hop MAC address>
		Set an existing mesh path's next hop.

	dev <devname> mpath new <destination MAC address> next_hop <next hop MAC address>
		Create a new mesh path (instead of relying on automatic discovery).

	dev <devname> mpath del <MAC address>
		Remove the mesh path to the given node.

	dev <devname> mpath get <MAC address>
		Get information on mesh path to the given node.

	dev <devname> scan [-u] [freq <freq>*] [ies <hex as 00:11:..>] [ssid <ssid>*|passive]
		Scan on the given frequencies and probe for the given SSIDs
		(or wildcard if not given) unless passive scanning is requested.
		If -u is specified print unknown data in the scan results.
		Specified (vendor) IEs must be well-formed.

	dev <devname> scan trigger [freq <freq>*] [ies <hex as 00:11:..>] [ssid <ssid>*|passive]
		Trigger a scan on the given frequencies with probing for the given
		SSIDs (or wildcard if not given) unless passive scanning is requested.

	dev <devname> scan dump [-u]
		Dump the current scan results. If -u is specified, print unknown
		data in scan results.

	reg get
		Print out the kernel's current regulatory domain information.

	reg set <ISO/IEC 3166-1 alpha2>
		Notify the kernel about the current regulatory domain.

	dev <devname> connect [-w] <SSID> [<freq in MHz>] [<bssid>] [key 0:abcde d:1:6162636465]
		Join the network with the given SSID (and frequency, BSSID).
		With -w, wait for the connect to finish or fail.

	dev <devname> disconnect
		Disconnect from the current network.

	dev <devname> link
		Print information about the current link, if any.

	dev <devname> offchannel <freq> <duration>
		Leave operating channel and go to the given channel for a while.

	dev <devname> cqm rssi <threshold|off> [<hysteresis>]
		Set connection quality monitor RSSI threshold.

	phy <phyname> wowlan show
		Show WoWLAN status.

	phy <phyname> wowlan disable
		Disable WoWLAN.

	phy <phyname> wowlan enable [any] [disconnect] [magic-packet] [gtk-rekey-failure] [eap-identity-request] [4way-handshake] [rfkill-release] [patterns <pattern>*]
		Enable WoWLAN with the given triggers.
		Each pattern is given as a bytestring with '-' in places where any byte
		may be present, e.g. 00:11:22:-:44 will match 00:11:22:33:44 and
		00:11:22:33:ff:44 etc.

	dev <devname> roc start <freq> <time>

	phy <phyname> set antenna <bitmap> | all | <tx bitmap> <rx bitmap>
		Set a bitmap of allowed antennas to use for TX and RX.
		The driver may reject antenna configurations it cannot support.

	dev <devname> set txpower <auto|fixed|limit> [<tx power in mBm>]
		Specify transmit power level and setting type.

	phy <phyname> set txpower <auto|fixed|limit> [<tx power in mBm>]
		Specify transmit power level and setting type.

	phy <phyname> set distance <distance>
		Set appropriate coverage class for given link distance in meters.
		Valid values: 0 - 114750

	phy <phyname> set coverage <coverage class>
		Set coverage class (1 for every 3 usec of air propagation time).
		Valid values: 0 - 255.

	phy <phyname> set netns <pid>
		Put this wireless device into a different network namespace

	phy <phyname> set rts <rts threshold|off>
		Set rts threshold.

	phy <phyname> set frag <fragmentation threshold|off>
		Set fragmentation threshold.

	dev <devname> set channel <channel> [HT20|HT40+|HT40-]
	phy <phyname> set channel <channel> [HT20|HT40+|HT40-]
	dev <devname> set freq <freq> [HT20|HT40+|HT40-]
	phy <phyname> set freq <freq> [HT20|HT40+|HT40-]
		Set frequency/channel the hardware is using, including HT
		configuration.

	phy <phyname> set name <new name>
		Rename this wireless device.

	dev <devname> set peer <MAC address>
		Set interface WDS peer.

	dev <devname> set noack_map <map>
		Set the NoAck map for the TIDs. (0x0009 = BE, 0x0006 = BK, 0x0030 = VI, 0x00C0 = VO)

	dev <devname> set 4addr <on|off>
		Set interface 4addr (WDS) mode.

	dev <devname> set type <type>
		Set interface type/mode.
		Valid interface types are: managed, ibss, monitor, mesh, wds.

	dev <devname> set meshid <meshid>
	dev <devname> set monitor <flag>*
		Set monitor flags. Valid flags are:
		none:     no special flags
		fcsfail:  show frames with FCS errors
		control:  show control frames
		otherbss: show frames from other BSSes
		cook:     use cooked mode

	dev <devname> set mesh_param <param>=<value> [<param>=<value>]*
		Set mesh parameter (run command without any to see available ones).

	dev <devname> set power_save <on|off>
		Set power save state to on or off.

	dev <devname> set bitrates [legacy-<2.4|5> <legacy rate in Mbps>*] [mcs-<2.4|5> <MCS index>*]
		Sets up the specified rate masks.
		Not passing any arguments would clear the existing mask (if any).

	dev <devname> get mesh_param [<param>]
		Retrieve mesh parameter (run command without any to see available ones).

	dev <devname> get power_save <param>
		Retrieve power save state.

You can omit the 'phy' or 'dev' if the identification is unique,
e.g. "iw wlan0 info" or "iw phy0 info". (Don't when scripting.)

Do NOT screenscrape this tool, we don't consider its output stable.
2019-03-20 13:58:58 +08:00

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#!/bin/sh
. /lib/netifd/netifd-wireless.sh
. /lib/netifd/hostapd.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"
iw() {
command iw $@ || logger -t mac80211 "Failed command: iw $@"
}
drv_mac80211_init_device_config() {
hostapd_common_add_device_config
config_add_string path phy 'macaddr:macaddr'
config_add_string hwmode
config_add_int beacon_int chanbw frag rts
config_add_int rxantenna txantenna antenna_gain txpower distance
config_add_boolean noscan ht_coex
config_add_array ht_capab
config_add_array channels
config_add_boolean \
rxldpc \
short_gi_80 \
short_gi_160 \
tx_stbc_2by1 \
su_beamformer \
su_beamformee \
mu_beamformer \
mu_beamformee \
vht_txop_ps \
htc_vht \
rx_antenna_pattern \
tx_antenna_pattern
config_add_int vht_max_a_mpdu_len_exp vht_max_mpdu vht_link_adapt vht160 rx_stbc tx_stbc
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
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_hostapd_setup_base() {
local phy="$1"
json_select config
[ "$auto_channel" -gt 0 ] && channel=acs_survey
[ "$auto_channel" -gt 0 ] && json_get_values channel_list channels
json_get_vars noscan ht_coex
json_get_values ht_capab_list ht_capab
ieee80211n=1
ht_capab=
case "$htmode" in
VHT20|HT20) ;;
HT40*|VHT40|VHT80|VHT160)
case "$hwmode" in
a)
case "$(( ($channel / 4) % 2 ))" in
1) ht_capab="[HT40+]";;
0) ht_capab="[HT40-]";;
esac
;;
*)
case "$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" "$N"
}
# 802.11ac
enable_ac=0
idx="$channel"
case "$htmode" in
VHT20) enable_ac=1;;
VHT40)
case "$(( ($channel / 4) % 2 ))" in
1) idx=$(($channel + 2));;
0) idx=$(($channel - 2));;
esac
enable_ac=1
append base_cfg "vht_oper_chwidth=0" "$N"
append base_cfg "vht_oper_centr_freq_seg0_idx=$idx" "$N"
;;
VHT80)
case "$(( ($channel / 4) % 4 ))" in
1) idx=$(($channel + 6));;
2) idx=$(($channel + 2));;
3) idx=$(($channel - 2));;
0) idx=$(($channel - 6));;
esac
enable_ac=1
append base_cfg "vht_oper_chwidth=1" "$N"
append base_cfg "vht_oper_centr_freq_seg0_idx=$idx" "$N"
;;
VHT160)
case "$channel" in
36|40|44|48|52|56|60|64) idx=50;;
100|104|108|112|116|120|124|128) idx=114;;
esac
enable_ac=1
append base_cfg "vht_oper_chwidth=2" "$N"
append base_cfg "vht_oper_centr_freq_seg0_idx=$idx" "$N"
;;
esac
if [ "$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 \
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
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 | $cap))"
done
cap_rx_stbc=$((($vht_cap >> 8) & 7))
[ "$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::$tx_antenna_pattern \
RX-STBC-1:0x700:0x100:1 \
RX-STBC-12:0x700:0x200:1 \
RX-STBC-123:0x700:0x300:1 \
RX-STBC-1234:0x700:0x400:1 \
# supported Channel widths
vht160_hw=0
[ "$(($vht_cap & 12))" -eq 4 -a 1 -le "$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" "$N"
fi
hostapd_prepare_device_config "$hostapd_conf_file" nl80211
cat >> "$hostapd_conf_file" <<EOF
${channel:+channel=$channel}
${channel_list:+chanlist=$channel_list}
${noscan:+noscan=$noscan}
$base_cfg
EOF
json_select ..
}
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 "$vif" || return 1
json_get_vars wds dtim_period max_listen_int start_disabled
set_default wds 0
set_default start_disabled 0
[ "$wds" -gt 0 ] && append hostapd_cfg "wds_sta=1" "$N"
[ "$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 $(($macidx + 1)) /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/${phy}/addresses)" -gt 1 ] && {
addr="$(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 - 1) << 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" ] && {
for phy in $(ls /sys/class/ieee80211 2>/dev/null); do
case "$(readlink -f /sys/class/ieee80211/$phy/device)" in
*$path) return 0;;
esac
done
}
[ -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
}
mac80211_iw_interface_add() {
local phy="$1"
local ifname="$2"
local type="$3"
local wdsflag="$4"
local rc
iw phy "$phy" interface add "$ifname" type "$type" $wdsflag
rc="$?"
[ "$rc" = 233 ] && {
# Device might have just been deleted, give the kernel some time to finish cleaning it up
sleep 1
iw phy "$phy" interface add "$ifname" type "$type" $wdsflag
rc="$?"
}
[ "$rc" = 233 ] && {
# Device might not support virtual interfaces, so the interface never got deleted in the first place.
# Check if the interface already exists, and avoid failing in this case.
ip link show dev "$ifname" >/dev/null 2>/dev/null && rc=0
}
[ "$rc" != 0 ] && wireless_setup_failed INTERFACE_CREATION_FAILED
return $rc
}
mac80211_prepare_vif() {
json_select config
json_get_vars ifname mode ssid wds powersave macaddr
[ -n "$ifname" ] || ifname="wlan${phy#phy}${if_idx:+-$if_idx}"
if_idx=$((${if_idx:-0} + 1))
set_default wds 0
set_default powersave 0
json_select ..
[ -n "$macaddr" ] || {
macaddr="$(mac80211_generate_mac $phy)"
macidx="$(($macidx + 1))"
}
json_add_object data
json_add_string ifname "$ifname"
json_close_object
json_select config
# It is far easier to delete and create the desired interface
case "$mode" in
adhoc)
mac80211_iw_interface_add "$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
[ -n "$hostapd_ctrl" ] || {
mac80211_iw_interface_add "$phy" "$ifname" __ap || return
hostapd_ctrl="${hostapd_ctrl:-/var/run/hostapd/$ifname}"
}
;;
mesh)
mac80211_iw_interface_add "$phy" "$ifname" mp || return
;;
monitor)
mac80211_iw_interface_add "$phy" "$ifname" monitor || return
;;
sta)
local wdsflag=
staidx="$(($staidx + 1))"
[ "$wds" -gt 0 ] && wdsflag="4addr on"
mac80211_iw_interface_add "$phy" "$ifname" managed "$wdsflag" || return
[ "$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" $htmode
;;
esac
if [ "$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() {
wpa_supplicant_prepare_interface "$ifname" nl80211 || return 1
if [ "$mode" = "sta" ]; then
wpa_supplicant_add_network "$ifname"
else
wpa_supplicant_add_network "$ifname" "$freq" "$htmode" "$noscan"
fi
wpa_supplicant_run "$ifname" ${hostapd_ctrl:+-H $hostapd_ctrl}
}
mac80211_setup_supplicant_noctl() {
wpa_supplicant_prepare_interface "$ifname" nl80211 || return 1
wpa_supplicant_add_network "$ifname" "$freq" "$htmode" "$noscan"
wpa_supplicant_run "$ifname"
}
mac80211_setup_adhoc_htmode() {
case "$htmode" in
VHT20|HT20) ibss_htmode=HT20;;
HT40*|VHT40|VHT160)
case "$hwmode" in
a)
case "$(( ($channel / 4) % 2 ))" in
1) ibss_htmode="HT40+" ;;
0) ibss_htmode="HT40-";;
esac
;;
*)
case "$htmode" in
HT40+) ibss_htmode="HT40+";;
HT40-) ibss_htmode="HT40-";;
*)
if [ "$channel" -lt 7 ]; then
ibss_htmode="HT40+"
else
ibss_htmode="HT40-"
fi
;;
esac
;;
esac
[ "$auto_channel" -gt 0 ] && ibss_htmode="HT40+"
;;
VHT80)
ibss_htmode="80MHZ"
;;
NONE|NOHT)
ibss_htmode="NOHT"
;;
*) ibss_htmode="" ;;
esac
}
mac80211_setup_adhoc() {
json_get_vars bssid ssid key mcast_rate
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 "$ifname" ibss join "$ssid" $freq $ibss_htmode fixed-freq $bssid \
beacon-interval $beacon_int \
${brstr:+basic-rates $brstr} \
${mcval:+mcast-rate $mcval} \
${keyspec:+keys $keyspec}
}
mac80211_setup_mesh() {
json_get_vars ssid mesh_id mcast_rate
mcval=
[ -n "$mcast_rate" ] && wpa_supplicant_add_rate mcval "$mcast_rate"
[ -n "$mesh_id" ] && ssid="$mesh_id"
case "$htmode" in
VHT20|HT20) mesh_htmode=HT20;;
HT40*|VHT40)
case "$hwmode" in
a)
case "$(( ($channel / 4) % 2 ))" in
1) mesh_htmode="HT40+" ;;
0) mesh_htmode="HT40-";;
esac
;;
*)
case "$htmode" in
HT40+) mesh_htmode="HT40+";;
HT40-) mesh_htmode="HT40-";;
*)
if [ "$channel" -lt 7 ]; then
mesh_htmode="HT40+"
else
mesh_htmode="HT40-"
fi
;;
esac
;;
esac
;;
VHT80)
mesh_htmode="80Mhz"
;;
VHT160)
mesh_htmode="160Mhz"
;;
*) mesh_htmode="NOHT" ;;
esac
iw dev "$ifname" mesh join "$ssid" freq $freq $mesh_htmode \
${mcval:+mcast-rate $mcval} \
beacon-interval $beacon_int
}
mac80211_setup_vif() {
local name="$1"
local failed
json_select data
json_get_vars ifname
json_select ..
json_select config
json_get_vars mode
json_get_var vif_txpower txpower
ip link set dev "$ifname" up || {
wireless_setup_vif_failed IFUP_ERROR
json_select ..
return
}
set_default vif_txpower "$txpower"
[ -z "$vif_txpower" ] || iw dev "$ifname" set txpower fixed "${vif_txpower%%.*}00"
case "$mode" in
mesh)
wireless_vif_parse_encryption
freq="$(get_freq "$phy" "$channel")"
if [ "$wpa" -gt 0 -o "$auto_channel" -gt 0 ] || chan_is_dfs "$phy" "$channel"; then
mac80211_setup_supplicant || failed=1
else
mac80211_setup_mesh
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
mac80211_setup_adhoc_htmode
if [ "$wpa" -gt 0 -o "$auto_channel" -gt 0 ]; then
freq="$(get_freq "$phy" "$channel")"
mac80211_setup_supplicant_noctl || failed=1
else
mac80211_setup_adhoc
fi
;;
sta)
mac80211_setup_supplicant || failed=1
;;
esac
json_select ..
[ -n "$failed" ] || wireless_add_vif "$name" "$ifname"
}
get_freq() {
local phy="$1"
local chan="$2"
iw "$phy" info | grep -E -m1 "(\* ${chan:-....} MHz${chan:+|\\[$chan\\]})" | grep MHz | awk '{print $2}'
}
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_interface_cleanup() {
local phy="$1"
for wdev in $(list_phy_interfaces "$phy"); do
ip link set dev "$wdev" down 2>/dev/null
iw dev "$wdev" del
done
}
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_select ..
find_phy || {
echo "Could not find PHY for device '$1'"
wireless_set_retry 0
return 1
}
wireless_set_data phy="$phy"
mac80211_interface_cleanup "$phy"
# convert channel to frequency
[ "$auto_channel" -gt 0 ] || freq="$(get_freq "$phy" "$channel")"
[ -n "$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 $antenna_gain
iw phy "$phy" set distance "$distance"
[ -n "$frag" ] && iw phy "$phy" set frag "${frag%%.*}"
[ -n "$rts" ] && iw phy "$phy" set rts "${rts%%.*}"
has_ap=
hostapd_ctrl=
for_each_interface "ap" mac80211_check_ap
rm -f "$hostapd_conf_file"
[ -n "$has_ap" ] && mac80211_hostapd_setup_base "$phy"
for_each_interface "sta adhoc mesh monitor" mac80211_prepare_vif
for_each_interface "ap" mac80211_prepare_vif
[ -n "$hostapd_ctrl" ] && {
/usr/sbin/hostapd -s -P /var/run/wifi-$phy.pid -B "$hostapd_conf_file"
ret="$?"
wireless_add_process "$(cat /var/run/wifi-$phy.pid)" "/usr/sbin/hostapd" 1
[ "$ret" != 0 ] && {
wireless_setup_failed HOSTAPD_START_FAILED
return
}
}
for_each_interface "ap sta adhoc mesh monitor" mac80211_setup_vif
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
}
drv_mac80211_teardown() {
wireless_process_kill_all
json_select data
json_get_vars phy
json_select ..
mac80211_interface_cleanup "$phy"
}
add_driver mac80211
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