# WiFi Module | Since | Origin / Contributor | Maintainer | Source | | :----- | :-------------------- | :---------- | :------ | | 2015-05-12 | [Zeroday](https://github.com/funshine) | [dnc40085](https://github.com/dnc40085) | [wifi.c](../../app/modules/wifi.c)| !!! important The WiFi subsystem is maintained by background tasks that must run periodically. Any function or task that takes longer than 15ms (milliseconds) may cause the WiFi subsystem to crash. To avoid these potential crashes, it is advised that the WiFi subsystem be suspended with [wifi.suspend()](#wifisuspend) prior to the execution of any tasks or functions that exceed this 15ms guideline. ### WiFi modes Courtesy: content for this chapter is borrowed/inspired by the [Arduino ESP8266 WiFi documentation](https://arduino-esp8266.readthedocs.io/en/latest/esp8266wifi/readme.html). Devices that connect to WiFi network are called stations (STA). Connection to Wi-Fi is provided by an access point (AP), that acts as a hub for one or more stations. The access point on the other end is connected to a wired network. An access point is usually integrated with a router to provide access from Wi-Fi network to the internet. Each access point is recognized by a SSID (**S**ervice **S**et **ID**entifier), that essentially is the name of network you select when connecting a device (station) to the WiFi. Each ESP8266 module can operate as a station, so we can connect it to the WiFi network. It can also operate as a soft access point (soft-AP), to establish its own WiFi network. Therefore, we can connect other stations to such modules. Third, ESP8266 is also able to operate both in station and soft access point mode *at the same time*. This offers the possibility of building e.g. [mesh networks](https://en.wikipedia.org/wiki/Mesh_networking). #### Station Station (STA) mode is used to get the ESP8266 connected to a WiFi network established by an access point. ![ESP8266 operating in station mode](../img/WiFi-station-mode.png) #### Soft Access Point An access point (AP) is a device that provides access to Wi-Fi network to other devices (stations) and connects them further to a wired network. ESP8266 can provide similar functionality except it does not have interface to a wired network. Such mode of operation is called soft access point (soft-AP). The maximum number of stations connected to the soft-AP is five. ![ESP8266 operating in Soft Access Point mode](../img/WiFi-softap-mode.png) The soft-AP mode is often used and an intermediate step before connecting ESP to a WiFi in a station mode. This is when SSID and password to such network is not known upfront. The module first boots in soft-AP mode, so we can connect to it using a laptop or a mobile phone. Then we are able to provide credentials to the target network. Once done ESP is switched to the station mode and can connect to the target WiFi. Such functionality is provided by the [NodeMCU enduser setup module](../modules/enduser-setup.md). #### Station + Soft Access Point Another handy application of soft-AP mode is to set up [mesh networks](https://en.wikipedia.org/wiki/Mesh_networking). ESP can operate in both soft-AP and Station mode so it can act as a node of a mesh network. ![ESP8266 operating in station AP mode](../img/WiFi-stationap-mode.png) ### Function reference The NodeMCU WiFi control is spread across several tables: - [`wifi`](#wifigetchannel) for overall WiFi configuration - [`wifi.sta`](#wifista-module) for station mode functions - [`wifi.ap`](#wifiap-module) for wireless access point (WAP or simply AP) functions - [`wifi.ap.dhcp`](#wifiapdhcp-module) for DHCP server control - [`wifi.eventmon`](#wifieventmon-module) for wifi event monitor - [`wifi.monitor`](wifi_monitor.md#wifimonitor-module) for wifi monitor mode ## wifi.getchannel() Gets the current WiFi channel. #### Syntax `wifi.getchannel()` #### Parameters `nil` #### Returns current WiFi channel ## wifi.getcountry() Get the current country info. #### Syntax `wifi.getcountry()` #### Parameters `nil` #### Returns - `country_info` this table contains the current country info configuration - `country` Country code, 2 character string. - `start_ch` Starting channel. - `end_ch` Ending channel. - `policy` The policy parameter determines which country info configuration to use, country info given to station by AP or local configuration. - `0` Country policy is auto, NodeMCU will use the country info provided by AP that the station is connected to. - `1` Country policy is manual, NodeMCU will use locally configured country info. #### Example ```lua for k, v in pairs(wifi.getcountry()) do print(k, v) end ``` #### See also [`wifi.setcountry()`](#wifisetcountry) ## wifi.getdefaultmode() Gets default WiFi operation mode. #### Syntax `wifi.getdefaultmode()` #### Parameters `nil` #### Returns The WiFi mode, as one of the `wifi.STATION`, `wifi.SOFTAP`, `wifi.STATIONAP` or `wifi.NULLMODE` constants. #### See also [`wifi.getmode()`](#wifigetmode) [`wifi.setmode()`](#wifisetmode) ## wifi.getmode() Gets WiFi operation mode. #### Syntax `wifi.getmode()` #### Parameters `nil` #### Returns The WiFi mode, as one of the `wifi.STATION`, `wifi.SOFTAP`, `wifi.STATIONAP` or `wifi.NULLMODE` constants. #### See also [`wifi.getdefaultmode()`](#wifigetdefaultmode) [`wifi.setmode()`](#wifisetmode) ## wifi.getphymode() Gets WiFi physical mode. #### Syntax `wifi.getphymode()` #### Parameters none #### Returns The current physical mode as one of `wifi.PHYMODE_B`, `wifi.PHYMODE_G` or `wifi.PHYMODE_N`. #### See also [`wifi.setphymode()`](#wifisetphymode) ## wifi.nullmodesleep() Configures whether or not WiFi automatically goes to sleep in NULL_MODE. Enabled by default. !!! note This function **does not** store it's setting in flash, if auto sleep in NULL_MODE is not desired, `wifi.nullmodesleep(false)` must be called after power-up, restart, or wake from deep sleep. #### Syntax `wifi.nullmodesleep([enable])` #### Parameters - `enable` - `true` Enable WiFi auto sleep in NULL_MODE. (Default setting) - `false` Disable WiFi auto sleep in NULL_MODE. #### Returns - `sleep_enabled` Current/New NULL_MODE sleep setting - If `wifi.nullmodesleep()` is called with no arguments, current setting is returned. - If `wifi.nullmodesleep()` is called with `enable` argument, confirmation of new setting is returned. ## wifi.resume() Wake up WiFi from suspended state or cancel pending wifi suspension. !!! attention This is disabled by default. Modify `PMSLEEP_ENABLE` in `app/include/user_config.h` to enable it. !!! note Wifi resume occurs asynchronously, this means that the resume request will only be processed when control of the processor is passed back to the SDK (after MyResumeFunction() has completed). The resume callback also executes asynchronously and will only execute after wifi has resumed normal operation. #### Syntax `wifi.resume([resume_cb])` #### Parameters - `resume_cb` Callback to execute when WiFi wakes from suspension. !!! note "Note:" Any previously provided callbacks will be replaced! #### Returns `nil` #### Example ```lua --Resume wifi from timed or indefinite sleep wifi.resume() --Resume wifi from timed or indefinite sleep w/ resume callback wifi.resume(function() print("WiFi resume") end) ``` #### See also - [`wifi.suspend()`](#wifisuspend) - [`node.sleep()`](node.md#nodesleep) - [`node.dsleep()`](node.md#nodedsleep) ## wifi.setcountry() Set the current country info. #### Syntax `wifi.setcountry(country_info)` #### Parameters - `country_info` This table contains the country info configuration. (If a blank table is passed to this function, default values will be configured.) - `country` Country code, 2 character string containing the country code (a list of country codes can be found [here](https://en.wikipedia.org/wiki/ISO_3166-1_alpha-2#Officially_assigned_code_elements)). (Default:"CN") - `start_ch` Starting channel (range:1-14). (Default:1) - `end_ch` Ending channel, must not be less than starting channel (range:1-14). (Default:13) - `policy` The policy parameter determines which country info configuration to use, country info given to station by AP or local configuration. (default:`wifi.COUNTRY_AUTO`) - `wifi.COUNTRY_AUTO` Country policy is auto, NodeMCU will use the country info provided by AP that the station is connected to. - while in stationAP mode, beacon/probe respose will reflect the country info of the AP that the station is connected to. - `wifi.COUNTRY_MANUAL` Country policy is manual, NodeMCU will use locally configured country info. #### Returns `true` If configuration was sucessful. #### Example ```lua do country_info={} country_info.country="US" country_info.start_ch=1 country_info.end_ch=13 country_info.policy=wifi.COUNTRY_AUTO; wifi.setcountry(country_info) end --compact version wifi.setcountry({country="US", start_ch=1, end_ch=13, policy=wifi.COUNTRY_AUTO}) --Set defaults wifi.setcountry({}) ``` #### See also [`wifi.getcountry()`](#wifigetcountry) ## wifi.setmode() Configures the WiFi mode to use. NodeMCU can run in one of four WiFi modes: - Station mode, where the NodeMCU device joins an existing network - Access point (AP) mode, where it creates its own network that others can join - Station + AP mode, where it both creates its own network while at the same time being joined to another existing network - WiFi off When using the combined Station + AP mode, the same channel will be used for both networks as the radio can only listen on a single channel. !!! note WiFi configuration will be retained until changed even if device is turned off. #### Syntax `wifi.setmode(mode[, save])` #### Parameters - `mode` value should be one of - `wifi.STATION` for when the device is connected to a WiFi router. This is often done to give the device access to the Internet. - `wifi.SOFTAP` for when the device is acting *only* as an access point. This will allow you to see the device in the list of WiFi networks (unless you hide the SSID, of course). In this mode your computer can connect to the device, creating a local area network. Unless you change the value, the NodeMCU device will be given a local IP address of 192.168.4.1 and assign your computer the next available IP address, such as 192.168.4.2. - `wifi.STATIONAP` is the combination of `wifi.STATION` and `wifi.SOFTAP`. It allows you to create a local WiFi connection *and* connect to another WiFi router. - `wifi.NULLMODE` changing WiFi mode to NULL_MODE will put wifi into a low power state similar to MODEM_SLEEP, provided `wifi.nullmodesleep(false)` has not been called. - `save` choose whether or not to save wifi mode to flash - `true` WiFi mode configuration **will** be retained through power cycle. (Default) - `false` WiFi mode configuration **will not** be retained through power cycle. #### Returns current mode after setup #### Example ```lua wifi.setmode(wifi.STATION) ``` #### See also [`wifi.getmode()`](#wifigetmode) [`wifi.getdefaultmode()`](#wifigetdefaultmode) ## wifi.setphymode() Sets WiFi physical mode. - `wifi.PHYMODE_B` 802.11b, more range, low Transfer rate, more current draw - `wifi.PHYMODE_G` 802.11g, medium range, medium transfer rate, medium current draw - `wifi.PHYMODE_N` 802.11n, least range, fast transfer rate, least current draw (STATION ONLY) Information from the Espressif datasheet v4.3 | Parameters |Typical Power Usage| |---------------------------------------------|-------------------| |Tx 802.11b, CCK 11Mbps, P OUT=+17dBm | 170 mA | |Tx 802.11g, OFDM 54Mbps, P OUT =+15dBm | 140 mA | |Tx 802.11n, MCS7 65Mbps, P OUT =+13dBm | 120 mA | |Rx 802.11b, 1024 bytes packet length, -80dBm | 50 mA | |Rx 802.11g, 1024 bytes packet length, -70dBm | 56 mA | |Rx 802.11n, 1024 bytes packet length, -65dBm | 56 mA | #### Syntax `wifi.setphymode(mode)` #### Parameters `mode` one of the following - `wifi.PHYMODE_B` - `wifi.PHYMODE_G` - `wifi.PHYMODE_N` #### Returns physical mode after setup #### See also [`wifi.getphymode()`](#wifigetphymode) ## wifi.setmaxtxpower() Sets WiFi maximum TX power. This setting is not persisted across power cycles, and the Espressif SDK documentation does not specify if the setting persists after deep sleep. The default value used is read from byte 34 of the ESP8266 init data, and its value is hence defined by the manufacturer. The default value, 82, corresponds to maximum TX power. Lowering this setting could reduce power consumption on battery backed devices. #### Syntax `wifi.setmaxtxpower(max_tpw)` #### Parameters `max_tpw` maximum value of RF Tx Power, unit: 0.25 dBm, range [0, 82]. #### Returns `nil` ### See also [`flash SDK init data`](../flash.md#sdk-init-data) ## wifi.startsmart() Starts to auto configuration, if success set up SSID and password automatically. Intended for use with SmartConfig apps, such as Espressif's [Android & iOS app](https://github.com/espressifapp). Only usable in `wifi.STATION` mode. !!! important SmartConfig is disabled by default and can be enabled by setting `WIFI_SMART_ENABLE` in [`user_config.h`](https://github.com/nodemcu/nodemcu-firmware/blob/dev/app/include/user_config.h#L96) before you build the firmware. #### Syntax `wifi.startsmart(type, callback)` #### Parameters - `type` 0 for ESP\_TOUCH, or 1 for AIR\_KISS. - `callback` a callback function of the form `function(ssid, password) end` which gets called after configuration. #### Returns `nil` #### Example ```lua wifi.setmode(wifi.STATION) wifi.startsmart(0, function(ssid, password) print(string.format("Success. SSID:%s ; PASSWORD:%s", ssid, password)) end ) ``` #### See also [`wifi.stopsmart()`](#wifistopsmart) ## wifi.stopsmart() Stops the smart configuring process. #### Syntax `wifi.stopsmart()` #### Parameters none #### Returns `nil` #### See also [`wifi.startsmart()`](#wifistartsmart) ## wifi.suspend() Suspend Wifi to reduce current consumption. !!! attention This is disabled by default. Modify `PMSLEEP_ENABLE` in `app/include/user_config.h` to enable it. !!! note Wifi suspension occurs asynchronously, this means that the suspend request will only be processed when control of the processor is passed back to the SDK (after MySuspendFunction() has completed). The suspend callback also executes asynchronously and will only execute after wifi has been successfully been suspended. #### Syntax `wifi.suspend({duration[, suspend_cb, resume_cb, preserve_mode]})` #### Parameters - `duration` Suspend duration in microseconds(μs). If a suspend duration of `0` is specified, suspension will be indefinite (Range: 0 or 50000 - 268435454 μs (0:4:28.000454)) - `suspend_cb` Callback to execute when WiFi is suspended. (Optional) - `resume_cb` Callback to execute when WiFi wakes from suspension. (Optional) - `preserve_mode` preserve current WiFi mode through node sleep. (Optional, Default: true) - If true, Station and StationAP modes will automatically reconnect to previously configured Access Point when NodeMCU resumes. - If false, discard WiFi mode and leave NodeMCU in [`wifi.NULL_MODE`](#wifigetmode). WiFi mode will be restored to original mode on restart. #### Returns - `suspend_state` if no parameters are provided, current WiFi suspension state will be returned - States: - `0` WiFi is awake. - `1` WiFi suspension is pending. (Waiting for idle task) - `2` WiFi is suspended. #### Example ```lua --get current wifi suspension state print(wifi.suspend()) --Suspend WiFi for 10 seconds with suspend/resume callbacks cfg={} cfg.duration=10*1000*1000 cfg.resume_cb=function() print("WiFi resume") end cfg.suspend_cb=function() print("WiFi suspended") end wifi.suspend(cfg) --Suspend WiFi for 10 seconds with suspend/resume callbacks and discard WiFi mode cfg={} cfg.duration=10*1000*1000 cfg.resume_cb=function() print("WiFi resume") end cfg.suspend_cb=function() print("WiFfi suspended") end cfg.preserve_mode=false wifi.suspend(cfg) ``` #### See also - [`wifi.resume()`](#wifiresume) - [`node.sleep()`](node.md#nodesleep) - [`node.dsleep()`](node.md#nodedsleep) # wifi.sta Module ## wifi.sta.autoconnect() Auto connects to AP in station mode. #### Syntax `wifi.sta.autoconnect(auto)` #### Parameters `auto` 0 to disable auto connecting, 1 to enable auto connecting #### Returns `nil` #### Example ```lua wifi.sta.autoconnect(1) ``` #### See also - [`wifi.sta.config()`](#wifistaconfig) - [`wifi.sta.connect()`](#wifistaconnect) - [`wifi.sta.disconnect()`](#wifistadisconnect) ## wifi.sta.changeap() Select Access Point from list returned by `wifi.sta.getapinfo()` #### Syntax `wifi.sta.changeap(ap_index)` #### Parameters `ap_index` Index of Access Point you would like to change to. (Range:1-5) - Corresponds to index used by [`wifi.sta.getapinfo()`](#wifistagetapinfo) and [`wifi.sta.getapindex()`](#wifistagetapindex) #### Returns - `true` Success - `false` Failure #### Example ```lua wifi.sta.changeap(4) ``` #### See also - [`wifi.sta.getapinfo()`](#wifistagetapinfo) - [`wifi.sta.getapindex()`](#wifistagetapindex) ## wifi.sta.clearconfig() Clears the currently saved WiFi station configuration, erasing it from the flash. May be useful for certain factory-reset scenarios when a full [`node.restore()`](node.md#noderestore) is not desired, or to prepare for using [End-User Setup](enduser-setup) so that the SoftAP is able to lock onto a single hardware radio channel. #### Syntax `wifi.sta.clearconfig()` #### Parameters none #### Returns - `true` Success - `false` Failure #### See also - [`wifi.sta.config()`](#wifistaconfig) - [`node.restore()`](node.md#noderestore) ## wifi.sta.config() Sets the WiFi station configuration. !!! note It is not advised to assume that the WiFi is connected at any time during initialization start-up. WiFi connection status should be validated either by using a WiFi event callback or by polling the status on a timer. #### Syntax `wifi.sta.config(station_config)` #### Parameters - `station_config` table containing configuration data for station - `ssid` string which is less than 32 bytes. - `pwd` string which is 0-64. Empty string indicates an open WiFi access point. _Note: WPA requires a minimum of 8-characters, but the ESP8266 can also connect to a WEP access point (a 40-bit WEP key can be provided as its corresponding 5-character ASCII string)._ - `auto` defaults to true - `true` to enable auto connect and connect to access point, hence with `auto=true` there's no need to call [`wifi.sta.connect()`](#wifistaconnect) - `false` to disable auto connect and remain disconnected from access point - `bssid` string that contains the MAC address of the access point (optional) - You can set BSSID if you have multiple access points with the same SSID. - If you set BSSID for a specific SSID and would like to configure station to connect to the same SSID only without the BSSID requirement, you MUST first configure to station to a different SSID first, then connect to the desired SSID - The following formats are valid: - "DE:C1:A5:51:F1:ED" - "AC-1D-1C-B1-0B-22" - "DE AD BE EF 7A C0" - `save` Save station configuration to flash. - `true` configuration **will** be retained through power cycle. (Default). - `false` configuration **will not** be retained through power cycle. - Event callbacks will only be available if `WIFI_SDK_EVENT_MONITOR_ENABLE` is uncommented in `user_config.h` - Please note: To ensure all station events are handled at boot time, all relevant callbacks must be registered as early as possible in `init.lua` with either `wifi.sta.config()` or `wifi.eventmon.register()`. - `connected_cb`: Callback to execute when station is connected to an access point. (Optional) - Items returned in table : - `SSID`: SSID of access point. (format: string) - `BSSID`: BSSID of access point. (format: string) - `channel`: The channel the access point is on. (format: number) - `disconnected_cb`: Callback to execute when station is disconnected from an access point. (Optional) - Items returned in table : - `SSID`: SSID of access point. (format: string) - `BSSID`: BSSID of access point. (format: string) - `reason`: See [wifi.eventmon.reason](#wifieventmonreason) below. (format: number) - `authmode_change_cb`: Callback to execute when the access point has changed authorization mode. (Optional) - Items returned in table : - `old_auth_mode`: Old wifi authorization mode. (format: number) - `new_auth_mode`: New wifi authorization mode. (format: number) - `got_ip_cb`: Callback to execute when the station received an IP address from the access point. (Optional) - Items returned in table : - `IP`: The IP address assigned to the station. (format: string) - `netmask`: Subnet mask. (format: string) - `gateway`: The IP address of the access point the station is connected to. (format: string) - `dhcp_timeout_cb`: Station DHCP request has timed out. (Optional) - Blank table is returned. #### Returns - `true` Success - `false` Failure #### Example ```lua --connect to Access Point (DO NOT save config to flash) station_cfg={} station_cfg.ssid="NODE-AABBCC" station_cfg.pwd="password" station_cfg.save=false wifi.sta.config(station_cfg) --connect to Access Point (DO save config to flash) station_cfg={} station_cfg.ssid="NODE-AABBCC" station_cfg.pwd="password" station_cfg.save=true wifi.sta.config(station_cfg) --connect to Access Point with specific MAC address (DO save config to flash) station_cfg={} station_cfg.ssid="NODE-AABBCC" station_cfg.pwd="password" station_cfg.bssid="AA:BB:CC:DD:EE:FF" wifi.sta.config(station_cfg) --configure station but don't connect to Access point (DO save config to flash) station_cfg={} station_cfg.ssid="NODE-AABBCC" station_cfg.pwd="password" station_cfg.auto=false wifi.sta.config(station_cfg) ``` #### See also - [`wifi.sta.clearconfig()`](#wifistaclearconfig) - [`wifi.sta.connect()`](#wifistaconnect) - [`wifi.sta.disconnect()`](#wifistadisconnect) - [`wifi.sta.getapinfo()`](#wifistagetapinfo) ## wifi.sta.connect() Connects to the configured AP in station mode. You only ever need to call this if auto-connect was disabled in [`wifi.sta.config()`](#wifistaconfig). #### Syntax `wifi.sta.connect([connected_cb])` #### Parameters - `connected_cb`: Callback to execute when station is connected to an access point. (Optional) - Items returned in table : - `SSID`: SSID of access point. (format: string) - `BSSID`: BSSID of access point. (format: string) - `channel`: The channel the access point is on. (format: number) #### Returns `nil` #### See also - [`wifi.sta.disconnect()`](#wifistadisconnect) - [`wifi.sta.config()`](#wifistaconfig) ## wifi.sta.disconnect() Disconnects from AP in station mode. !!! note Please note that disconnecting from Access Point does not reduce power consumption. If power saving is your goal, please refer to the description for `wifi.NULLMODE` in the function [`wifi.setmode()`](#wifisetmode) for more details. #### Syntax `wifi.sta.disconnect([disconnected_cb])` #### Parameters - `disconnected_cb`: Callback to execute when station is disconnected from an access point. (Optional) - Items returned in table : - `SSID`: SSID of access point. (format: string) - `BSSID`: BSSID of access point. (format: string) - `reason`: See [wifi.eventmon.reason](#wifieventmonreason) below. (format: number) #### Returns `nil` #### See also - [`wifi.sta.config()`](#wifistaconfig) - [`wifi.sta.connect()`](#wifistaconnect) ## wifi.sta.getap() Scans AP list as a Lua table into callback function. #### Syntax `wifi.sta.getap([[cfg], format,] callback(table))` #### Parameters - `cfg` table that contains scan configuration - `ssid` SSID == nil, don't filter SSID - `bssid` BSSID == nil, don't filter BSSID - `channel` channel == 0, scan all channels, otherwise scan set channel (default is 0) - `show_hidden` show_hidden == 1, get info for router with hidden SSID (default is 0) - `format` select output table format, defaults to 0 - 0: old format (SSID : Authmode, RSSI, BSSID, Channel), any duplicate SSIDs will be discarded - 1: new format (BSSID : SSID, RSSI, auth mode, Channel) - `callback(table)` a callback function to receive the AP table when the scan is done. This function receives a table, the key is the BSSID, the value is other info in format: SSID, RSSID, auth mode, channel. #### Returns `nil` #### Example ```lua -- print AP list in old format (format not defined) function listap(t) for k,v in pairs(t) do print(k.." : "..v) end end wifi.sta.getap(listap) -- Print AP list that is easier to read function listap(t) -- (SSID : Authmode, RSSI, BSSID, Channel) print("\n"..string.format("%32s","SSID").."\tBSSID\t\t\t\t RSSI\t\tAUTHMODE\tCHANNEL") for ssid,v in pairs(t) do local authmode, rssi, bssid, channel = string.match(v, "([^,]+),([^,]+),([^,]+),([^,]+)") print(string.format("%32s",ssid).."\t"..bssid.."\t "..rssi.."\t\t"..authmode.."\t\t\t"..channel) end end wifi.sta.getap(listap) -- print AP list in new format function listap(t) for k,v in pairs(t) do print(k.." : "..v) end end wifi.sta.getap(1, listap) -- Print AP list that is easier to read function listap(t) -- (SSID : Authmode, RSSI, BSSID, Channel) print("\n\t\t\tSSID\t\t\t\t\tBSSID\t\t\t RSSI\t\tAUTHMODE\t\tCHANNEL") for bssid,v in pairs(t) do local ssid, rssi, authmode, channel = string.match(v, "([^,]+),([^,]+),([^,]+),([^,]*)") print(string.format("%32s",ssid).."\t"..bssid.."\t "..rssi.."\t\t"..authmode.."\t\t\t"..channel) end end wifi.sta.getap(1, listap) --check for specific AP function listap(t) print("\n\t\t\tSSID\t\t\t\t\tBSSID\t\t\t RSSI\t\tAUTHMODE\t\tCHANNEL") for bssid,v in pairs(t) do local ssid, rssi, authmode, channel = string.match(v, "([^,]+),([^,]+),([^,]+),([^,]*)") print(string.format("%32s",ssid).."\t"..bssid.."\t "..rssi.."\t\t"..authmode.."\t\t\t"..channel) end end scan_cfg = {} scan_cfg.ssid = "myssid" scan_cfg.bssid = "AA:AA:AA:AA:AA:AA" scan_cfg.channel = 0 scan_cfg.show_hidden = 1 wifi.sta.getap(scan_cfg, 1, listap) --get RSSI for currently configured AP function listap(t) for bssid,v in pairs(t) do local ssid, rssi, authmode, channel = string.match(v, "([^,]+),([^,]+),([^,]+),([^,]*)") print("CURRENT RSSI IS: "..rssi) end end ssid, tmp, bssid_set, bssid=wifi.sta.getconfig() scan_cfg = {} scan_cfg.ssid = ssid if bssid_set == 1 then scan_cfg.bssid = bssid else scan_cfg.bssid = nil end scan_cfg.channel = wifi.getchannel() scan_cfg.show_hidden = 0 ssid, tmp, bssid_set, bssid=nil, nil, nil, nil wifi.sta.getap(scan_cfg, 1, listap) ``` #### See also [`wifi.sta.getip()`](#wifistagetip) ## wifi.sta.getapindex() Get index of current Access Point stored in AP cache. #### Syntax `wifi.sta.getapindex()` #### Parameters none #### Returns `current_index` index of currently selected Access Point. (Range:1-5) #### Example ```lua print("the index of the currently selected AP is: "..wifi.sta.getapindex()) ``` #### See also - [`wifi.sta.getapindex()`](#wifistagetapindex) - [`wifi.sta.getapinfo()`](#wifistagetapinfo) - [`wifi.sta.changeap()`](#wifistachangeap) ## wifi.sta.getapinfo() Get information of APs cached by ESP8266 station. !!! Note Any Access Points configured with save disabled `wifi.sta.config({save=false})` will populate this list (appearing to overwrite APs stored in flash) until restart. #### Syntax `wifi.sta.getapinfo()` #### Parameters `nil` #### Returns - `ap_info` - `qty` quantity of APs returned - `1-5` index of AP. (the index corresponds to index used by [`wifi.sta.changeap()`](#wifistachangeap) and [`wifi.sta.getapindex()`](#wifistagetapindex)) - `ssid` ssid of Access Point - `pwd` password for Access Point, `nil` if no password was configured - `bssid` MAC address of Access Point - `nil` will be returned if no MAC address was configured during station configuration. #### Example ```lua --print stored access point info do for k,v in pairs(wifi.sta.getapinfo()) do if (type(v)=="table") then print(" "..k.." : "..type(v)) for k,v in pairs(v) do print("\t\t"..k.." : "..v) end else print(" "..k.." : "..v) end end end --print stored access point info(formatted) do local x=wifi.sta.getapinfo() local y=wifi.sta.getapindex() print("\n Number of APs stored in flash:", x.qty) print(string.format(" %-6s %-32s %-64s %-18s", "index:", "SSID:", "Password:", "BSSID:")) for i=1, (x.qty), 1 do print(string.format(" %s%-6d %-32s %-64s %-18s",(i==y and ">" or " "), i, x[i].ssid, x[i].pwd and x[i].pwd or type(nil), x[i].bssid and x[i].bssid or type(nil))) end end ``` #### See also - [`wifi.sta.getapindex()`](#wifistagetapindex) - [`wifi.sta.setaplimit()`](#wifistasetaplimit) - [`wifi.sta.changeap()`](#wifistachangeap) - [`wifi.sta.config()`](#wifistaconfig) ## wifi.sta.getbroadcast() Gets the broadcast address in station mode. #### Syntax `wifi.sta.getbroadcast()` #### Parameters `nil` #### Returns broadcast address as string, for example "192.168.0.255", returns `nil` if IP address = "0.0.0.0". #### See also [`wifi.sta.getip()`](#wifistagetip) ## wifi.sta.getconfig() Gets the WiFi station configuration. #### Syntax `wifi.sta.getconfig()` #### Parameters - `return_table` - `true` returns data in a table - `false` returns data in the old format (default) #### Returns If `return_table` is `true`: - `config_table` - `ssid` ssid of Access Point. - `pwd` password to Access Point, `nil` if no password was configured - `bssid_set` will return `true` if the station was configured specifically to connect to the AP with the matching `bssid`. - `bssid` If a connection has been made to the configured AP this field will contain the AP's MAC address. Otherwise "ff:ff:ff:ff:ff:ff" will be returned. If `return_table` is `false`: - ssid, password, bssid_set, bssid, if `bssid_set` is equal to `0` then `bssid` is irrelevant #### Example ```lua --Get current Station configuration (NEW FORMAT) do local sta_config=wifi.sta.getconfig(true) print(string.format("\tCurrent station config\n\tssid:\"%s\"\tpassword:\"%s\"\n\tbssid:\"%s\"\tbssid_set:%s", sta_config.ssid, sta_config.pwd, sta_config.bssid, (sta_config.bssid_set and "true" or "false"))) end --Get current Station configuration (OLD FORMAT) ssid, password, bssid_set, bssid=wifi.sta.getconfig() print("\nCurrent Station configuration:\nSSID : "..ssid .."\nPassword : "..password .."\nBSSID_set : "..bssid_set .."\nBSSID: "..bssid.."\n") ssid, password, bssid_set, bssid=nil, nil, nil, nil ``` #### See also - [`wifi.sta.getdefaultconfig()`](#wifistagetdefaultconfig) - [`wifi.sta.connect()`](#wifistaconnect) - [`wifi.sta.disconnect()`](#wifistadisconnect) ## wifi.sta.getdefaultconfig() Gets the default WiFi station configuration stored in flash. #### Syntax `wifi.sta.getdefaultconfig(return_table)` #### Parameters - `return_table` - `true` returns data in a table - `false` returns data in the old format (default) #### Returns If `return_table` is `true`: - `config_table` - `ssid` ssid of Access Point. - `pwd` password to Access Point, `nil` if no password was configured - `bssid_set` will return `true` if the station was configured specifically to connect to the AP with the matching `bssid`. - `bssid` If a connection has been made to the configured AP this field will contain the AP's MAC address. Otherwise "ff:ff:ff:ff:ff:ff" will be returned. If `return_table` is `false`: - ssid, password, bssid_set, bssid, if `bssid_set` is equal to `0` then `bssid` is irrelevant #### Example ```lua --Get default Station configuration (NEW FORMAT) do local def_sta_config=wifi.sta.getdefaultconfig(true) print(string.format("\tDefault station config\n\tssid:\"%s\"\tpassword:\"%s\"\n\tbssid:\"%s\"\tbssid_set:%s", def_sta_config.ssid, def_sta_config.pwd, def_sta_config.bssid, (def_sta_config.bssid_set and "true" or "false"))) end --Get default Station configuration (OLD FORMAT) ssid, password, bssid_set, bssid=wifi.sta.getdefaultconfig() print("\nCurrent Station configuration:\nSSID : "..ssid .."\nPassword : "..password .."\nBSSID_set : "..bssid_set .."\nBSSID: "..bssid.."\n") ssid, password, bssid_set, bssid=nil, nil, nil, nil ``` #### See also - [`wifi.sta.getconfig()`](#wifistagetconfig) - [`wifi.sta.connect()`](#wifistaconnect) - [`wifi.sta.disconnect()`](#wifistadisconnect) ## wifi.sta.gethostname() Gets current station hostname. #### Syntax `wifi.sta.gethostname()` #### Parameters none #### Returns currently configured hostname #### Example ```lua print("Current hostname is: \""..wifi.sta.gethostname().."\"") ``` ## wifi.sta.getip() Gets IP address, netmask, and gateway address in station mode. #### Syntax `wifi.sta.getip()` #### Parameters none #### Returns IP address, netmask, gateway address as string, for example "192.168.0.111". Returns `nil` if IP = "0.0.0.0". #### Example ```lua -- print current IP address, netmask, gateway print(wifi.sta.getip()) -- 192.168.0.111 255.255.255.0 192.168.0.1 ip = wifi.sta.getip() print(ip) -- 192.168.0.111 ip, nm = wifi.sta.getip() print(nm) -- 255.255.255.0 ``` #### See also [`wifi.sta.getmac()`](#wifistagetmac) ## wifi.sta.getmac() Gets MAC address in station mode. #### Syntax `wifi.sta.getmac()` #### Parameters none #### Returns MAC address as string e.g. "18:fe:34:a2:d7:34" #### See also [`wifi.sta.getip()`](#wifistagetip) ## wifi.sta.getrssi() Get RSSI(Received Signal Strength Indicator) of the Access Point which ESP8266 station connected to. #### Syntax `wifi.sta.getrssi()` #### Parameters none #### Returns - If station is connected to an access point, `rssi` is returned. - If station is not connected to an access point, `nil` is returned. #### Example ```lua RSSI=wifi.sta.getrssi() print("RSSI is", RSSI) ``` ## wifi.sta.setaplimit() Set Maximum number of Access Points to store in flash. - This value is written to flash !!! Attention New setting will not take effect until restart. !!! Note If 5 Access Points are stored and AP limit is set to 4, the AP at index 5 will remain until [`node.restore()`](node.md#noderestore) is called or AP limit is set to 5 and AP is overwritten. #### Syntax `wifi.sta.setaplimit(qty)` #### Parameters `qty` Quantity of Access Points to store in flash. Range: 1-5 (Default: 1) #### Returns - `true` Success - `false` Failure #### Example ```lua wifi.sta.setaplimit(5) ``` #### See also - [`wifi.sta.getapinfo()`](#wifistagetapinfo) ## wifi.sta.sethostname() Sets station hostname. #### Syntax `wifi.sta.sethostname(hostname)` #### Parameters `hostname` must only contain letters, numbers and hyphens('-') and be 32 characters or less with first and last character being alphanumeric #### Returns - `true` Success - `false` Failure #### Example ```lua if (wifi.sta.sethostname("NodeMCU") == true) then print("hostname was successfully changed") else print("hostname was not changed") end ``` ## wifi.sta.setip() Sets IP address, netmask, gateway address in station mode. #### Syntax `wifi.sta.setip(cfg)` #### Parameters `cfg` table contain IP address, netmask, and gateway ```lua { ip = "192.168.0.111", netmask = "255.255.255.0", gateway = "192.168.0.1" } ``` #### Returns true if success, false otherwise #### See also [`wifi.sta.setmac()`](#wifistasetmac) ## wifi.sta.setmac() Sets MAC address in station mode. #### Syntax `wifi.sta.setmac(mac)` #### Parameters MAC address in string e.g. "DE:AD:BE:EF:7A:C0" #### Returns true if success, false otherwise #### Example ```lua print(wifi.sta.setmac("DE:AD:BE:EF:7A:C0")) ``` #### See also [`wifi.sta.setip()`](#wifistasetip) ## wifi.sta.sleeptype() Configures the WiFi modem sleep type to be used while station is connected to an Access Point. !!! note Does not apply to `wifi.SOFTAP`, `wifi.STATIONAP` or `wifi.NULLMODE`. #### Syntax `wifi.sta.sleeptype(type_wanted)` #### Parameters `type_wanted` one of the following: - `wifi.NONE_SLEEP` to keep the modem on at all times - `wifi.LIGHT_SLEEP` to allow the CPU to power down under some circumstances - `wifi.MODEM_SLEEP` to power down the modem as much as possible #### Returns The actual sleep mode set, as one of `wifi.NONE_SLEEP`, `wifi.LIGHT_SLEEP` or `wifi.MODEM_SLEEP`. ## wifi.sta.status() Gets the current status in station mode. #### Syntax `wifi.sta.status()` #### Parameters `nil` #### Returns The current state which can be one of the following: - `wifi.STA_IDLE` - `wifi.STA_CONNECTING` - `wifi.STA_WRONGPWD` - `wifi.STA_APNOTFOUND` - `wifi.STA_FAIL` - `wifi.STA_GOTIP` # wifi.ap Module ## wifi.ap.config() Sets SSID and password in AP mode. Be sure to make the password at least 8 characters long! If you don't it will default to *no* password and not set the SSID! It will still work as an access point but use a default SSID like e.g. NODE_9997C3. #### Syntax `wifi.ap.config(cfg)` #### Parameters - `cfg` table to hold configuration - `ssid` SSID chars 1-32 - `pwd` password chars 8-64 - `auth` authentication method, one of `wifi.OPEN` (default), `wifi.WPA_PSK`, `wifi.WPA2_PSK`, `wifi.WPA_WPA2_PSK` - `channel` channel number 1-14 default = 6 - `hidden` false = not hidden, true = hidden, default = false - `max` maximum number of connections 1-4 default=4 - `beacon` beacon interval time in range 100-60000, default = 100 - `save` save configuration to flash. - `true` configuration **will** be retained through power cycle. (Default) - `false` configuration **will not** be retained through power cycle. - Event callbacks will only be available if `WIFI_SDK_EVENT_MONITOR_ENABLE` is uncommented in `user_config.h` - Please note: To ensure all SoftAP events are handled at boot time, all relevant callbacks must be registered as early as possible in `init.lua` with either `wifi.ap.config()` or `wifi.eventmon.register()`. - `staconnected_cb`: Callback executed when a new client has connected to the access point. (Optional) - Items returned in table : - `MAC`: MAC address of client that has connected. - `AID`: SDK provides no details concerning this return value. - `stadisconnected_cb`: Callback executed when a client has disconnected from the access point. (Optional) - Items returned in table : - `MAC`: MAC address of client that has disconnected. - `AID`: SDK provides no details concerning this return value. - `probereq_cb`: Callback executed when a probe request was received. (Optional) - Items returned in table : - `MAC`: MAC address of the client that is probing the access point. - `RSSI`: Received Signal Strength Indicator of client. #### Returns - `true` Success - `false` Failure #### Example: ```lua cfg={} cfg.ssid="myssid" cfg.pwd="mypassword" wifi.ap.config(cfg) ``` ## wifi.ap.deauth() Deauths (forcibly removes) a client from the ESP access point by sending a corresponding IEEE802.11 management packet (first) and removing the client from it's data structures (afterwards). The IEEE802.11 reason code used is 2 for "Previous authentication no longer valid"(AUTH_EXPIRE). #### Syntax `wifi.ap.deauth([MAC])` #### Parameters - `MAC` address of station to be deauthed. - Note: if this field is left blank, all currently connected stations will get deauthed. #### Returns Returns true unless called while the ESP is in the STATION opmode #### Example ```lua allowed_mac_list={"18:fe:34:00:00:00", "18:fe:34:00:00:01"} wifi.eventmon.register(wifi.eventmon.AP_STACONNECTED, function(T) print("\n\tAP - STATION CONNECTED".."\n\tMAC: "..T.MAC.."\n\tAID: "..T.AID) if(allowed_mac_list~=nil) then for _, v in pairs(allowed_mac_list) do if(v == T.MAC) then return end end end wifi.ap.deauth(T.MAC) print("\tStation DeAuthed!") end) ``` #### See also [`wifi.eventmon.register()`](#wifieventmonregister) [`wifi.eventmon.reason()`](#wifieventmonreason) ## wifi.ap.getbroadcast() Gets broadcast address in AP mode. #### Syntax `wifi.ap.getbroadcast()` #### Parameters none #### Returns broadcast address in string, for example "192.168.0.255", returns `nil` if IP address = "0.0.0.0". #### Example ```lua bc = wifi.ap.getbroadcast() print(bc) -- 192.168.0.255 ``` #### See also [`wifi.ap.getip()`](#wifiapgetip) ## wifi.ap.getclient() Gets table of clients connected to device in AP mode. #### Syntax `wifi.ap.getclient()` #### Parameters none #### Returns table of connected clients #### Example ```lua table={} table=wifi.ap.getclient() for mac,ip in pairs(table) do print(mac,ip) end -- or shorter for mac,ip in pairs(wifi.ap.getclient()) do print(mac,ip) end ``` ## wifi.ap.getconfig() Gets the current SoftAP configuration. #### Syntax `wifi.ap.getconfig(return_table)` #### Parameters - `return_table` - `true` returns data in a table - `false` returns data in the old format (default) #### Returns If `return_table` is true: - `config_table` - `ssid` Network name - `pwd` Password, `nil` if no password was configured - `auth` Authentication Method (`wifi.OPEN`, `wifi.WPA_PSK`, `wifi.WPA2_PSK` or `wifi.WPA_WPA2_PSK`) - `channel` Channel number - `hidden` `false` = not hidden, `true` = hidden - `max` Maximum number of client connections - `beacon` Beacon interval If `return_table` is false: - ssid, password, if `bssid_set` is equal to 0 then `bssid` is irrelevant #### Example ```lua --Get SoftAP configuration table (NEW FORMAT) do print("\n Current SoftAP configuration:") for k,v in pairs(wifi.ap.getconfig(true)) do print(" "..k.." :",v) end end --Get current SoftAP configuration (OLD FORMAT) do local ssid, password=wifi.ap.getconfig() print("\n Current SoftAP configuration:\n SSID : "..ssid.. "\n Password :",password) ssid, password=nil, nil end ``` ## wifi.ap.getdefaultconfig() Gets the default SoftAP configuration stored in flash. #### Syntax `wifi.ap.getdefaultconfig(return_table)` #### Parameters - `return_table` - `true` returns data in a table - `false` returns data in the old format (default) #### Returns If `return_table` is true: - `config_table` - `ssid` Network name - `pwd` Password, `nil` if no password was configured - `auth` Authentication Method (`wifi.OPEN`, `wifi.WPA_PSK`, `wifi.WPA2_PSK` or `wifi.WPA_WPA2_PSK`) - `channel` Channel number - `hidden` `false` = not hidden, `true` = hidden - `max` Maximum number of client connections - `beacon` Beacon interval If `return_table` is false: - ssid, password, if `bssid_set` is equal to 0 then `bssid` is irrelevant #### Example ```lua --Get default SoftAP configuration table (NEW FORMAT) do print("\n Default SoftAP configuration:") for k,v in pairs(wifi.ap.getdefaultconfig(true)) do print(" "..k.." :",v) end end --Get default SoftAP configuration (OLD FORMAT) do local ssid, password=wifi.ap.getdefaultconfig() print("\n Default SoftAP configuration:\n SSID : "..ssid.. "\n Password :",password) ssid, password=nil, nil end ``` ## wifi.ap.getip() Gets IP address, netmask and gateway in AP mode. #### Syntax `wifi.ap.getip()` #### Parameters none #### Returns IP address, netmask, gateway address as string, for example "192.168.0.111", returns `nil` if IP address = "0.0.0.0". #### Example ```lua -- print current ip, netmask, gateway print(wifi.ap.getip()) -- 192.168.4.1 255.255.255.0 192.168.4.1 ip = wifi.ap.getip() print(ip) -- 192.168.4.1 ip, nm = wifi.ap.getip() print(nm) -- 255.255.255.0 ip, nm, gw = wifi.ap.getip() print(gw) -- 192.168.4.1 ``` #### See also - [`wifi.ap.getmac()`](#wifiapgetmac) ## wifi.ap.getmac() Gets MAC address in AP mode. #### Syntax `wifi.ap.getmac()` #### Parameters none #### Returns MAC address as string, for example "1A-33-44-FE-55-BB" #### See also [`wifi.ap.getip()`](#wifiapgetip) ## wifi.ap.setip() Sets IP address, netmask and gateway address in AP mode. #### Syntax `wifi.ap.setip(cfg)` #### Parameters `cfg` table contain IP address, netmask, and gateway #### Returns true if successful, false otherwise #### Example ```lua cfg = { ip="192.168.1.1", netmask="255.255.255.0", gateway="192.168.1.1" } wifi.ap.setip(cfg) ``` #### See also [`wifi.ap.setmac()`](#wifiapsetmac) ## wifi.ap.setmac() Sets MAC address in AP mode. #### Syntax `wifi.ap.setmac(mac)` #### Parameters MAC address in byte string, for example "AC-1D-1C-B1-0B-22" #### Returns true if success, false otherwise #### Example ```lua print(wifi.ap.setmac("AC-1D-1C-B1-0B-22")) ``` #### See also [`wifi.ap.setip()`](#wifiapsetip) # wifi.ap.dhcp Module ## wifi.ap.dhcp.config() Configure the dhcp service. Currently only supports setting the start address of the dhcp address pool. #### Syntax `wifi.ap.dhcp.config(dhcp_config)` #### Parameters `dhcp_config` table containing the start-IP of the DHCP address pool, eg. "192.168.1.100" #### Returns `pool_startip`, `pool_endip` #### Example ```lua dhcp_config ={} dhcp_config.start = "192.168.1.100" wifi.ap.dhcp.config(dhcp_config) ``` ## wifi.ap.dhcp.start() Starts the DHCP service. #### Syntax `wifi.ap.dhcp.start()` #### Parameters none #### Returns boolean indicating success ## wifi.ap.dhcp.stop() Stops the DHCP service. #### Syntax `wifi.ap.dhcp.stop()` #### Parameters none #### Returns boolean indicating success # wifi.eventmon Module ## wifi.eventmon.register() Register/unregister callbacks for WiFi event monitor. - After a callback is registered, this function may be called to update a callback's function at any time !!! note To ensure all WiFi events are caught, the Wifi event monitor callbacks should be registered as early as possible in `init.lua`. Any events that occur before callbacks are registered will be discarded! #### Syntax wifi.eventmon.register(Event[, function(T)]) #### Parameters Event: WiFi event you would like to set a callback for. - Valid WiFi events: - wifi.eventmon.STA_CONNECTED - wifi.eventmon.STA_DISCONNECTED - wifi.eventmon.STA_AUTHMODE_CHANGE - wifi.eventmon.STA_GOT_IP - wifi.eventmon.STA_DHCP_TIMEOUT - wifi.eventmon.AP_STACONNECTED - wifi.eventmon.AP_STADISCONNECTED - wifi.eventmon.AP_PROBEREQRECVED #### Returns Function: `nil` Callback: T: Table returned by event. - `wifi.eventmon.STA_CONNECTED` Station is connected to access point. - `SSID`: SSID of access point. - `BSSID`: BSSID of access point. - `channel`: The channel the access point is on. - `wifi.eventmon.STA_DISCONNECTED`: Station was disconnected from access point. - `SSID`: SSID of access point. - `BSSID`: BSSID of access point. - `reason`: See [wifi.eventmon.reason](#wifieventmonreason) below. - `wifi.eventmon.STA_AUTHMODE_CHANGE`: Access point has changed authorization mode. - `old_auth_mode`: Old wifi authorization mode. - `new_auth_mode`: New wifi authorization mode. - `wifi.eventmon.STA_GOT_IP`: Station got an IP address. - `IP`: The IP address assigned to the station. - `netmask`: Subnet mask. - `gateway`: The IP address of the access point the station is connected to. - `wifi.eventmon.STA_DHCP_TIMEOUT`: Station DHCP request has timed out. - Blank table is returned. - `wifi.eventmon.AP_STACONNECTED`: A new client has connected to the access point. - `MAC`: MAC address of client that has connected. - `AID`: SDK provides no details concerning this return value. - `wifi.eventmon.AP_STADISCONNECTED`: A client has disconnected from the access point. - `MAC`: MAC address of client that has disconnected. - `AID`: SDK provides no details concerning this return value. - `wifi.eventmon.AP_PROBEREQRECVED`: A probe request was received. - `MAC`: MAC address of the client that is probing the access point. - `RSSI`: Received Signal Strength Indicator of client. - `wifi.eventmon.WIFI_MODE_CHANGE`: WiFi mode has changed. - `old_auth_mode`: Old WiFi mode. - `new_auth_mode`: New WiFi mode. #### Example ```lua wifi.eventmon.register(wifi.eventmon.STA_CONNECTED, function(T) print("\n\tSTA - CONNECTED".."\n\tSSID: "..T.SSID.."\n\tBSSID: ".. T.BSSID.."\n\tChannel: "..T.channel) end) wifi.eventmon.register(wifi.eventmon.STA_DISCONNECTED, function(T) print("\n\tSTA - DISCONNECTED".."\n\tSSID: "..T.SSID.."\n\tBSSID: ".. T.BSSID.."\n\treason: "..T.reason) end) wifi.eventmon.register(wifi.eventmon.STA_AUTHMODE_CHANGE, function(T) print("\n\tSTA - AUTHMODE CHANGE".."\n\told_auth_mode: ".. T.old_auth_mode.."\n\tnew_auth_mode: "..T.new_auth_mode) end) wifi.eventmon.register(wifi.eventmon.STA_GOT_IP, function(T) print("\n\tSTA - GOT IP".."\n\tStation IP: "..T.IP.."\n\tSubnet mask: ".. T.netmask.."\n\tGateway IP: "..T.gateway) end) wifi.eventmon.register(wifi.eventmon.STA_DHCP_TIMEOUT, function() print("\n\tSTA - DHCP TIMEOUT") end) wifi.eventmon.register(wifi.eventmon.AP_STACONNECTED, function(T) print("\n\tAP - STATION CONNECTED".."\n\tMAC: "..T.MAC.."\n\tAID: "..T.AID) end) wifi.eventmon.register(wifi.eventmon.AP_STADISCONNECTED, function(T) print("\n\tAP - STATION DISCONNECTED".."\n\tMAC: "..T.MAC.."\n\tAID: "..T.AID) end) wifi.eventmon.register(wifi.eventmon.AP_PROBEREQRECVED, function(T) print("\n\tAP - PROBE REQUEST RECEIVED".."\n\tMAC: ".. T.MAC.."\n\tRSSI: "..T.RSSI) end) wifi.eventmon.register(wifi.eventmon.WIFI_MODE_CHANGED, function(T) print("\n\tSTA - WIFI MODE CHANGED".."\n\told_mode: ".. T.old_mode.."\n\tnew_mode: "..T.new_mode) end) ``` #### See also - [`wifi.eventmon.unregister()`](#wifieventmonunregister) ## wifi.eventmon.unregister() Unregister callbacks for WiFi event monitor. #### Syntax wifi.eventmon.unregister(Event) #### Parameters Event: WiFi event you would like to set a callback for. - Valid WiFi events: - wifi.eventmon.STA_CONNECTED - wifi.eventmon.STA_DISCONNECTED - wifi.eventmon.STA_AUTHMODE_CHANGE - wifi.eventmon.STA_GOT_IP - wifi.eventmon.STA_DHCP_TIMEOUT - wifi.eventmon.AP_STACONNECTED - wifi.eventmon.AP_STADISCONNECTED - wifi.eventmon.AP_PROBEREQRECVED - wifi.eventmon.WIFI_MODE_CHANGED #### Returns `nil` #### Example ```lua wifi.eventmon.unregister(wifi.eventmon.STA_CONNECTED) ``` #### See also - [`wifi.eventmon.register()`](#wifieventmonregister) ## wifi.eventmon.reason Table containing disconnect reasons. | Disconnect reason | value | |:--------------------|:-------:| |wifi.eventmon.reason.UNSPECIFIED | 1 | |wifi.eventmon.reason.AUTH_EXPIRE | 2 | |wifi.eventmon.reason.AUTH_LEAVE | 3 | |wifi.eventmon.reason.ASSOC_EXPIRE | 4 | |wifi.eventmon.reason.ASSOC_TOOMANY | 5 | |wifi.eventmon.reason.NOT_AUTHED | 6 | |wifi.eventmon.reason.NOT_ASSOCED | 7 | |wifi.eventmon.reason.ASSOC_LEAVE | 8 | |wifi.eventmon.reason.ASSOC_NOT_AUTHED | 9 | |wifi.eventmon.reason.DISASSOC_PWRCAP_BAD | 10 | |wifi.eventmon.reason.DISASSOC_SUPCHAN_BAD | 11 | |wifi.eventmon.reason.IE_INVALID | 13 | |wifi.eventmon.reason.MIC_FAILURE | 14 | |wifi.eventmon.reason.4WAY_HANDSHAKE_TIMEOUT | 15 | |wifi.eventmon.reason.GROUP_KEY_UPDATE_TIMEOUT | 16 | |wifi.eventmon.reason.IE_IN_4WAY_DIFFERS | 17 | |wifi.eventmon.reason.GROUP_CIPHER_INVALID | 18 | |wifi.eventmon.reason.PAIRWISE_CIPHER_INVALID | 19 | |wifi.eventmon.reason.AKMP_INVALID | 20 | |wifi.eventmon.reason.UNSUPP_RSN_IE_VERSION | 21 | |wifi.eventmon.reason.INVALID_RSN_IE_CAP | 22 | |wifi.eventmon.reason.802_1X_AUTH_FAILED | 23 | |wifi.eventmon.reason.CIPHER_SUITE_REJECTED | 24 | |wifi.eventmon.reason.BEACON_TIMEOUT | 200 | |wifi.eventmon.reason.NO_AP_FOUND | 201 | |wifi.eventmon.reason.AUTH_FAIL | 202 | |wifi.eventmon.reason.ASSOC_FAIL | 203 | |wifi.eventmon.reason.HANDSHAKE_TIMEOUT | 204 |