import useSWR from "swr";
import { useContext } from "react";
import { FaMemory, FaRegClock, FaThermometerHalf } from "react-icons/fa";
import { FiCpu, FiHardDrive } from "react-icons/fi";
import { useTranslation } from "next-i18next";
import Error from "../widget/error";
import Resource from "../widget/resource";
import Resources from "../widget/resources";
import WidgetLabel from "../widget/widget_label";
import { SettingsContext } from "utils/contexts/settings";
const cpuSensorLabels = ["cpu_thermal", "Core", "Tctl"];
function convertToFahrenheit(t) {
return t * 9/5 + 32
}
export default function Widget({ options }) {
const { t, i18n } = useTranslation();
const { settings } = useContext(SettingsContext);
const { data, error } = useSWR(
`/api/widgets/glances?${new URLSearchParams({ lang: i18n.language, ...options }).toString()}`, {
refreshInterval: 1500,
}
);
if (error || data?.error) {
return
}
if (!data) {
return
{ options.cpu !== false && }
{ options.mem !== false && }
{ options.cputemp && }
{ options.disk && !Array.isArray(options.disk) && }
{ options.disk && Array.isArray(options.disk) && options.disk.map((disk) => ) }
{ options.uptime && }
{ options.label && }
;
}
const unit = options.units === "imperial" ? "fahrenheit" : "celsius";
let mainTemp = 0;
let maxTemp = 80;
const cpuSensors = data.sensors?.filter(s => cpuSensorLabels.some(label => s.label.startsWith(label)) && s.type === "temperature_core");
if (options.cputemp && cpuSensors) {
try {
mainTemp = cpuSensors.reduce((acc, s) => acc + s.value, 0) / cpuSensors.length;
maxTemp = Math.max(cpuSensors.reduce((acc, s) => acc + (s.warning > 0 ? s.warning : 0), 0) / cpuSensors.length, maxTemp);
if (unit === "fahrenheit") {
mainTemp = convertToFahrenheit(mainTemp);
maxTemp = convertToFahrenheit(maxTemp);
}
} catch (e) {
// cpu sensor retrieval failed
}
}
const tempPercent = Math.round((mainTemp / maxTemp) * 100);
let disks = [];
if (options.disk) {
disks = Array.isArray(options.disk)
? options.disk.map((disk) => data.fs.find((d) => d.mnt_point === disk)).filter((d) => d)
: [data.fs.find((d) => d.mnt_point === options.disk)].filter((d) => d);
}
return (
{options.cpu !== false && }
{options.mem !== false && }
{disks.map((disk) => (
))}
{options.cputemp && mainTemp > 0 &&
}
{options.uptime && data.uptime &&
}
{options.label && }
);
}