recipes-wifi/hostapd/files/wifi-detect.uc - filogic/rdk-b/meta-filogic - Gitiles

 #!/usr/bin/env ucode
 'use strict';
 import { readfile, writefile, realpath, glob, basename, unlink, open, rename } from "fs";
 import { is_equal } from "/usr/share/hostap/common.uc";
 let nl = require("nl80211");

 let board_file = "/etc/board.json";
 let prev_board_data = json(readfile(board_file));
 let board_data = json(readfile(board_file));

 function phy_idx(name) {
 	return +rtrim(readfile(`/sys/class/ieee80211/${name}/index`));
 }

 function phy_path(name) {
 	let devpath = realpath(`/sys/class/ieee80211/${name}/device`);

 	devpath = replace(devpath, /^\/sys\/devices\//, "");
 	if (match(devpath, /^platform\/.*\/pci/))
 		devpath = replace(devpath, /^platform\//, "");
 	let dev_phys = map(glob(`/sys/class/ieee80211/${name}/device/ieee80211/*`), basename);
 	sort(dev_phys, (a, b) => phy_idx(a) - phy_idx(b));

 	let ofs = index(dev_phys, name);
 	if (ofs > 0)
 		devpath += `+${ofs}`;

 	return devpath;
 }

 function cleanup() {
 	let wlan = board_data.wlan;

 	for (let name in wlan)
 		if (substr(name, 0, 3) == "phy")
 			delete wlan[name];
 		else
 			delete wlan[name].info;
 }

 function wiphy_get_entry(phy, path) {
 	board_data.wlan ??= {};

 	let wlan = board_data.wlan;
 	for (let name in wlan)
 		if (wlan[name].path == path)
 			return wlan[name];

 	wlan[phy] = {
 		path: path
 	};

 	return wlan[phy];
 }

 function wiphy_detect() {
 	let phys = nl.request(nl.const.NL80211_CMD_GET_WIPHY, nl.const.NLM_F_DUMP, { split_wiphy_dump: true });
 	if (!phys)
 		return;

 	for (let phy in phys) {
 		let name = phy.wiphy_name;
 		let path = phy_path(name);
 		let info = {
 			antenna_rx: phy.wiphy_antenna_avail_rx,
 			antenna_tx: phy.wiphy_antenna_avail_tx,
 			bands: {},
 		};

 		let bands = info.bands;
 		for (let band in phy.wiphy_bands) {
 			if (!band || !band.freqs)
 				continue;
 			let freq = band.freqs[0].freq;
 			let band_info = {};
 			let band_name;
 			if (freq > 50000)
 				band_name = "60G";
 			else if (freq > 5900)
 				band_name = "6G";
 			else if (freq > 4000)
 				band_name = "5G";
 			else
 				band_name = "2G";
 			bands[band_name] = band_info;
 			if (band.ht_capa > 0)
 				band_info.ht = true;
 			if (band.vht_capa > 0)
 				band_info.vht = true;
 			let he_phy_cap = 0;

 			for (let ift in band.iftype_data) {
 				if (!ift.he_cap_phy)
 					continue;

 				band_info.he = true;
 				he_phy_cap |= ift.he_cap_phy[0];
 				/* TODO: EHT */
 			}

 			if (band_name != "2G" &&
 			    (he_phy_cap & 0x18) || ((band.vht_capa >> 2) & 0x3))
 				band_info.max_width = 160;
 			else if (band_name != "2G" &&
 			         (he_phy_cap & 4) || band.vht_capa > 0)
 				band_info.max_width = 80;
 			else if ((band.ht_capa & 0x2) || (he_phy_cap & 0x2))
 				band_info.max_width = 40;
 			else
 				band_info.max_width = 20;

 			let modes = band_info.modes = [ "NOHT" ];
 			if (band_info.ht)
 				push(modes, "HT20");
 			if (band_info.vht)
 				push(modes, "VHT20");
 			if (band_info.he)
 				push(modes, "HE20");
 			if (band.ht_capa & 0x2) {
 				push(modes, "HT40");
 				if (band_info.vht)
 					push(modes, "VHT40")
 			}
 			if (he_phy_cap & 0x2)
 				push(modes, "HE40");

 			if (band_name == "2G")
 				continue;
 			if (band_info.vht)
 				push(modes, "VHT80");
 			if (he_phy_cap & 4)
 				push(modes, "HE80");
 			if ((band.vht_capa >> 2) & 0x3)
 				push(modes, "VHT160");
 			if (he_phy_cap & 0x18)
 				push(modes, "HE160");
 		}

 		let entry = wiphy_get_entry(name, path);
 		entry.info = info;
 	}
 }

 cleanup();
 wiphy_detect();
 if (!is_equal(prev_board_data, board_data)) {
 	let new_file = board_file + ".new";
 	unlink(new_file);
 	let f = open(new_file, "wx");
 	if (!f)
 		exit(1);
 	f.write(sprintf("%.J\n", board_data));
 	f.close();
 	rename(new_file, board_file);
 }
	#!/usr/bin/env ucode
	'use strict';
	import { readfile, writefile, realpath, glob, basename, unlink, open, rename } from "fs";
	import { is_equal } from "/usr/share/hostap/common.uc";
	let nl = require("nl80211");

	let board_file = "/etc/board.json";
	let prev_board_data = json(readfile(board_file));
	let board_data = json(readfile(board_file));

	function phy_idx(name) {
	return +rtrim(readfile(`/sys/class/ieee80211/${name}/index`));
	}

	function phy_path(name) {
	let devpath = realpath(`/sys/class/ieee80211/${name}/device`);

	devpath = replace(devpath, /^\/sys\/devices\//, "");
	if (match(devpath, /^platform\/.*\/pci/))
	devpath = replace(devpath, /^platform\//, "");
	let dev_phys = map(glob(`/sys/class/ieee80211/${name}/device/ieee80211/*`), basename);
	sort(dev_phys, (a, b) => phy_idx(a) - phy_idx(b));

	let ofs = index(dev_phys, name);
	if (ofs > 0)
	devpath += `+${ofs}`;

	return devpath;
	}

	function cleanup() {
	let wlan = board_data.wlan;

	for (let name in wlan)
	if (substr(name, 0, 3) == "phy")
	delete wlan[name];
	else
	delete wlan[name].info;
	}

	function wiphy_get_entry(phy, path) {
	board_data.wlan ??= {};

	let wlan = board_data.wlan;
	for (let name in wlan)
	if (wlan[name].path == path)
	return wlan[name];

	wlan[phy] = {
	path: path
	};

	return wlan[phy];
	}

	function wiphy_detect() {
	let phys = nl.request(nl.const.NL80211_CMD_GET_WIPHY, nl.const.NLM_F_DUMP, { split_wiphy_dump: true });
	if (!phys)
	return;

	for (let phy in phys) {
	let name = phy.wiphy_name;
	let path = phy_path(name);
	let info = {
	antenna_rx: phy.wiphy_antenna_avail_rx,
	antenna_tx: phy.wiphy_antenna_avail_tx,
	bands: {},
	};

	let bands = info.bands;
	for (let band in phy.wiphy_bands) {
	if (!band \|\| !band.freqs)
	continue;
	let freq = band.freqs[0].freq;
	let band_info = {};
	let band_name;
	if (freq > 50000)
	band_name = "60G";
	else if (freq > 5900)
	band_name = "6G";
	else if (freq > 4000)
	band_name = "5G";
	else
	band_name = "2G";
	bands[band_name] = band_info;
	if (band.ht_capa > 0)
	band_info.ht = true;
	if (band.vht_capa > 0)
	band_info.vht = true;
	let he_phy_cap = 0;

	for (let ift in band.iftype_data) {
	if (!ift.he_cap_phy)
	continue;

	band_info.he = true;
	he_phy_cap \|= ift.he_cap_phy[0];
	/* TODO: EHT */
	}

	if (band_name != "2G" &&
	(he_phy_cap & 0x18) \|\| ((band.vht_capa >> 2) & 0x3))
	band_info.max_width = 160;
	else if (band_name != "2G" &&
	(he_phy_cap & 4) \|\| band.vht_capa > 0)
	band_info.max_width = 80;
	else if ((band.ht_capa & 0x2) \|\| (he_phy_cap & 0x2))
	band_info.max_width = 40;
	else
	band_info.max_width = 20;

	let modes = band_info.modes = [ "NOHT" ];
	if (band_info.ht)
	push(modes, "HT20");
	if (band_info.vht)
	push(modes, "VHT20");
	if (band_info.he)
	push(modes, "HE20");
	if (band.ht_capa & 0x2) {
	push(modes, "HT40");
	if (band_info.vht)
	push(modes, "VHT40")
	}
	if (he_phy_cap & 0x2)
	push(modes, "HE40");

	if (band_name == "2G")
	continue;
	if (band_info.vht)
	push(modes, "VHT80");
	if (he_phy_cap & 4)
	push(modes, "HE80");
	if ((band.vht_capa >> 2) & 0x3)
	push(modes, "VHT160");
	if (he_phy_cap & 0x18)
	push(modes, "HE160");
	}

	let entry = wiphy_get_entry(name, path);
	entry.info = info;
	}
	}

	cleanup();
	wiphy_detect();
	if (!is_equal(prev_board_data, board_data)) {
	let new_file = board_file + ".new";
	unlink(new_file);
	let f = open(new_file, "wx");
	if (!f)
	exit(1);
	f.write(sprintf("%.J\n", board_data));
	f.close();
	rename(new_file, board_file);
	}