Software access point

From ArchWiki

A software access point, also called virtual router or virtual Wi-Fi, enables a computer to turn its wireless interface into a Wi-Fi access point. It saves the trouble of getting a separate wireless router.

Requirements

Wi-Fi device must support AP mode

You need a nl80211 compatible wireless device, which supports the AP operating mode. This can be verified by running the iw list command, under the Supported interface modes block there should be AP listed:

$ iw list
Wiphy phy1
...
	Supported interface modes:
		 * IBSS
		 * managed
		 * AP
		 * AP/VLAN
		 * WDS
		 * monitor
		 * mesh point
...
Note: Since 2019 most Intel devices will no longer provide AP services on the 5 GHz band, due to the firmware mistakenly leaving the Location-Aware Regulatory (LAR) feature enabled even in AP mode. See #Cannot start AP mode in 5 GHz band.

Wireless client and software AP with a single Wi-Fi device

Creating a software AP is independent from your own network connection (Ethernet, wireless, ...). Many wireless devices even support simultaneous operation both as AP and as wireless "client" at the same time. Using that capability you can create a software AP acting as a "wireless repeater" for an existing network, using a single wireless device. The capability is listed in the following section in the output of iw list:

$ iw list
Wiphy phy1
...
        valid interface combinations:
                 * #{ managed } <= 2048, #{ AP, mesh point } <= 8, #{ P2P-client, P2P-GO } <= 1,
                   total <= 2048, #channels <= 1, STA/AP BI must match
...

The constraint #channels <= 1 means that your software AP must operate on the same channel as your Wi-Fi client connection; see the channel setting in hostapd.conf below.

If you want to use the capability/feature, perhaps because an Ethernet connection is not available, you need to create two separate virtual interfaces for using it. Virtual interfaces for a physical device wlan0 can be created as follows: The virtual interfaces with unique MAC address are created for the network connection (wlan0_sta) itself and for the software AP/hostapd "wireless repeater":

# iw dev wlan0 interface add wlan0_sta type managed addr 12:34:56:78:ab:cd  
# iw dev wlan0 interface add wlan0_ap  type managed addr 12:34:56:78:ab:ce

Random MAC address can be generated using macchanger.

Configuration

Setting up an access point consists of two main parts:

  1. Setting up the Wi-Fi link layer, so that wireless clients can associate to your computer's software access point and exchange IP packets with it.
  2. Setting up the network configuration on your computer, so that it properly relays IP packets between its own internet connection and the wireless clients.

Wi-Fi link layer

The actual Wi-Fi link is established via the hostapd package, which has WPA2 support.

Adjust the options in hostapd configuration file if necessary. Especially, change the ssid and the wpa_passphrase. See hostapd Linux documentation page for more information.

/etc/hostapd/hostapd.conf
interface=wlan0_ap
bridge=br0

# SSID to be used in IEEE 802.11 management frames
ssid=YourWiFiName
# Driver interface type (hostap/wired/none/nl80211/bsd)
driver=nl80211
# Country code (ISO/IEC 3166-1)
country_code=US

# Operation mode (a = IEEE 802.11a (5 GHz), b = IEEE 802.11b (2.4 GHz)
hw_mode=g
# Channel number
channel=7
# Maximum number of stations allowed
max_num_sta=5

# Bit field: bit0 = WPA, bit1 = WPA2
wpa=2
# Bit field: 1=wpa, 2=wep, 3=both
auth_algs=1

# Set of accepted cipher suites; disabling insecure TKIP
wpa_pairwise=CCMP
# Set of accepted key management algorithms
wpa_key_mgmt=WPA-PSK
wpa_passphrase=Somepassphrase

# hostapd event logger configuration
logger_stdout=-1
logger_stdout_level=2

# Uncomment and modify the following section if your device supports 802.11n
## Enable 802.11n support
#ieee80211n=1
## QoS support
#wmm_enabled=1
## Use "iw list" to show device capabilities and modify ht_capab accordingly
#ht_capab=[HT40+][SHORT-GI-40][TX-STBC][RX-STBC1][DSSS_CCK-40]
Tip: You can set up the SSID with UTF-8 characters, so international characters will show properly. The option to enable it is utf8_ssid=1. Some clients may have problems with recognizing the correct encoding (e.g. wpa_supplicant or Windows 7).

For automatically starting hostapd on boot, enable the hostapd.service.

If you are starting hostapd on boot, make sure the wireless network interface is brought up first, otherwise it will fail. To ensure your wireless interface is ready, edit the unit configuration file and state that it is bound to and should start after your network interface:

/etc/systemd/system/hostapd.service.d/override.conf
[Unit]
BindsTo=sys-subsystem-net-devices-wlan0.device
After=sys-subsystem-net-devices-wlan0.device

Also make sure that the interface is not managed by other network managers. If you are using NetworkManager, see NetworkManager#Ignore specific devices.

Warning: The wireless channels allowed for access point operation differ according to geography. Depending on the wireless firmware, you may have to set the region correctly to use legal channels. Do not choose another region, as you may be illegally disturbing network traffic, affecting wireless functionality of your own device and others within its reach! To set the region see Wireless network configuration#Respecting the regulatory domain.
Note: If you have a card based on RTL8192CU chipset, install hostapd-rtl871xdrvAUR and replace driver=nl80211 with driver=rtl871xdrv in the hostapd.conf file.

Network configuration

There are two basic ways for implementing this:

  1. bridge: creates a network bridge on your computer, wireless clients will appear to access the same network interface and the same subnet that is used by your computer.
  2. NAT: with IP forwarding/masquerading and DHCP service, wireless clients will use a dedicated subnet, data from/to that subnet is NAT-ted. This is similar to a normal Wi-Fi router which is connected to the internet.

The bridge approach is simpler, but it requires that any service that is needed by the wireless clients, in particular DHCP, is available on the computer's external interface. This means it will not work if the external modem which assigns IP addresses, supplies the same one to different clients.

The NAT approach is more versatile, as it clearly separates Wi-Fi clients from your computer and it is completely transparent to the outside world. It will work with any kind of network connection, and (if needed) traffic policies can be introduced using the usual iptables approach.

It is possible to combine these two approaches: for example having a bridge that contains both an ethernet device and the wireless device with a static ip, offering DHCP and setting NAT configured to relay the traffic to an additional network device connected to the WAN.

Bridge setup

You need to create a network bridge and add your network interface (e.g. eth0) to it. You should not add the wireless device (e.g. wlan0) to the bridge; hostapd will add it on its own.

See Network bridge.

Tip: You may wish to reuse an existing bridge, if you have one (e.g. used by a virtual machine).

NAT setup

See Internet sharing#Configuration for configuration details.

In that article, the device connected to the LAN is net0. That device would be in this case your wireless device (e.g. wlan0).

Tools

linux-wifi-hotspot

The linux-wifi-hotspotAUR package provides a script that can create either a bridged or a NATed access point for internet sharing. It combines hostapd, dnsmasq and iptables for the good functioning of the access point. Includes both command line and gui. The basic syntax to create a NATed virtual network is the following:

# create_ap wlan0 eth0 MyAccessPoint MyPassPhrase

Alternatively, the template configuration provided in /etc/create_ap.conf can be adapted to ones need and the script run with:

# create_ap --config /etc/create_ap.conf

To use the GUI, run in terminal:

# wihotspot

Enable/start the create_ap.service to run the script at boot time with the configuration specified in /etc/create_ap.conf.

For more information see linux-wifi-hotspot on GitHub.

Note: In bridge mode, create_ap may conflict at boot time with the current network configuration. In this case, do not configure the IP address of the ethernet interface, neither DHCP nor a statip IP address, in order to facilitate the binding to the bridge.

RADIUS

See [1] for instructions to run a FreeRADIUS server for WPA2 Enterprise.

Tango-view-fullscreen.pngThis article or section needs expansion.Tango-view-fullscreen.png

Reason: Seems it is possible to easily create access point with just Network Manager. (Discuss in Talk:Software access point)

Troubleshooting

WLAN is very slow

Frequent causes for a lower than expected throughput include

  • An improper choice of operation mode with a hw_mode lower than the one supported can limit the router artificially. Check that a modern operating mode is selected.
  • A crowded or otherwise noise afflicted channel can severely degrade performance especially in densely populated areas. Try changing to a different channel or even switch frequencies.
  • The availability of too little entropy can lead to poor performance. Consider installing haveged.

NetworkManager is interfering

hostapd may not work, if the device is managed by NetworkManager. You can mask the device using MAC:

/etc/NetworkManager/conf.d/unmanaged.conf
[keyfile]
unmanaged-devices=mac:hwaddr

Or interface name:

/etc/NetworkManager/conf.d/unmanaged.conf
[keyfile]
unmanaged-devices=interface-name:ifname

Cannot start AP mode in 5 GHz band

Apparently with the special country code 00 (global), all usable frequencies in the 5Ghz band will have the no-ir (no-initiating-radiation) flag set, which will prevent hostapd from using them. You will need to have wireless-regdb installed and have your country code set to make frequencies allowed in your country available for hostapd.

Note that recent Intel devices have a Location-Aware Regulatory (LAR) feature, which ignores the userspace regulatory database and instead deduces the regulatory region by listening to other nearby access points. This means the devices will not transmit on any 5 GHz frequencies until they have first seen other access points on the 5 GHz frequency bands, preventing any 5 GHz transmission at all in many cases. Older kernels had an option to disable this which was removed in 2019 due to it causing the firmware to crash. Since this removal, Intel cards supporting LAR can no longer be used as access points in the 5 GHz band.

See also