{% /* * Part of AREDN® -- Used for creating Amateur Radio Emergency Data Networks * Copyright (C) 2024 Tim Wilkinson * See Contributors file for additional contributors * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation version 3 of the License. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . * * Additional Terms: * * Additional use restrictions exist on the AREDN® trademark and logo. * See AREDNLicense.txt for more info. * * Attributions to the AREDN® Project must be retained in the source code. * If importing this code into a new or existing project attribution * to the AREDN® project must be added to the source code. * * You must not misrepresent the origin of the material contained within. * * Modified versions must be modified to attribute to the original source * and be marked in reasonable ways as differentiate it from the original * version */ %} {% const radio = radios.getActiveConfiguration(); let midx = -1; let lidx = -1; let widx = -1; for (let i = 0; i < length(radio); i++) { switch (radio[i].mode) { case radios.RADIO_MESH: midx = i; break; case radios.RADIO_LAN: lidx = i; break; case radios.RADIO_WAN: widx = i; break; } } %}

Radio

{{hardware.getRadio().name}}

model

{% if (midx !== -1) { const r = radio[midx].modes[radios.RADIO_MESH]; %}

Mesh

{{r.channel}}

channel

{{hardware.getChannelFrequencyRange(radio[midx].iface, r.channel, r.bandwidth)}}

frequencies

{{r.bandwidth}} MHz

bandwidth

{{r.txpower + radio[midx].txpoweroffset}} dBm

tx power

{{int(0.5 + units.meters2distance(uci.get("aredn", "@lqm[0]", "max_distance")))}} {{units.distanceUnit()}}

maximum distance

{{uci.get("aredn", "@lqm[0]", "min_snr")}}

minimum snr

{% } if (lidx !== -1) { const r = radio[lidx].modes[radios.RADIO_LAN]; %}

LAN Hotspot

{{r.channel}}

channel

{{r.ssid}}

ssid

{% } if (widx !== -1) { const r = radio[widx].modes[radios.RADIO_WAN]; %}

WAN Client

{{r.ssid}}

ssid

{% } %} {% if (midx !== -1) { %}

Antenna

{% const antenna = hardware.getAntennaInfo(radio[midx].iface, uci.get("aredn", "@location[0]", "antenna")); const antennaAux = hardware.getAntennaAuxInfo(radio[midx].iface, uci.get("aredn", "@location[0]", "antenna_aux")); %}

{{(antenna || { description: "-"}).description}}

antenna

{% if (antennaAux) { %}

{{(antennaAux || { description: "-"}).description}}

aux antenna

{% } %}

{% if (uci.get("aredn", "@location[0]", "azimuth")) { %}

{{uci.get("aredn", "@location[0]", "azimuth")}}°

{% } else { %}

-

{% } %}

azimuth

{% if (uci.get("aredn", "@location[0]", "height")) { %}

{{uci.get("aredn", "@location[0]", "height")}}m

{% } else { %}

-

{% } %}

height

{% if (uci.get("aredn", "@location[0]", "elevation")) { %}

{{uci.get("aredn", "@location[0]", "elevation")}}°

{% } else { %}

-

{% } %}

elevation

{% } %}