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ironbar/src/clients/sysinfo.rs
Rodrigo Batista de Moraes cff6b1fc83
build: fix compilation for many feature combinations (#932) 
* Fix compilation for many feature combinations

* fix: keep Mpris as the default music player type

* fix: update futures-lite comment

* fix: remove redundant "clap" feature dependency from "cli"

* fix: don't make IPC a dependency of sysinfo module

* refactor: move serde_json feature to "shared" section

* refactor: avoid cfgs inside listen_workspace_events

by splitting list_keyboards_events out of it, which manages its own
connection to the Hyprland IPC socket.

* refactor: sort multiline cfg any's

* Revert "refactor: avoid cfgs inside listen_workspace_events"

This reverts commit 1b4202ed80c9483c609ada8c4436e0fec26a9eef.

* refactor: split listen_workspace_events in more functions

* style: fix broken identation

Not sure why rustfmt didn't catch this.
2025-04-16 22:43:14 +01:00

621 lines
18 KiB
Rust
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use crate::modules::sysinfo::Interval;
use crate::{lock, register_client};
use color_eyre::{Report, Result};
use std::cmp::Ordering;
use std::collections::HashMap;
use std::fmt::Debug;
use std::str::FromStr;
use std::sync::{Arc, Mutex};
use sysinfo::{Components, Disks, LoadAvg, Networks, RefreshKind, System};
#[repr(u64)]
#[derive(Debug, Default, Clone, Copy, Eq, PartialEq)]
pub enum Prefix {
#[default]
None = 1,
Kilo = 1000,
Mega = Prefix::Kilo as u64 * 1000,
Giga = Prefix::Mega as u64 * 1000,
Tera = Prefix::Giga as u64 * 1000,
Peta = Prefix::Tera as u64 * 1000,
Kibi = 1024,
Mebi = Prefix::Kibi as u64 * 1024,
Gibi = Prefix::Mebi as u64 * 1024,
Tebi = Prefix::Gibi as u64 * 1024,
Pebi = Prefix::Tebi as u64 * 1024,
// # Units
// These are special cases
// where you'd actually want to do slightly more than a prefix alone.
// Included as part of the prefix system for simplicity.
KiloBit = 128,
MegaBit = Prefix::KiloBit as u64 * 1024,
GigaBit = Prefix::MegaBit as u64 * 1024,
}
#[derive(Debug, Clone)]
pub enum Function {
None,
Sum,
Min,
Max,
Mean,
Name(String),
}
impl FromStr for Function {
type Err = ();
fn from_str(s: &str) -> Result<Self, Self::Err> {
match s.to_lowercase().as_str() {
"sum" => Ok(Self::Sum),
"min" => Ok(Self::Min),
"max" => Ok(Self::Max),
"mean" => Ok(Self::Mean),
"" => Err(()),
_ => Ok(Self::Name(s.to_string())),
}
}
}
#[derive(Debug)]
pub struct ValueSet {
values: HashMap<Box<str>, Value>,
}
impl FromIterator<(Box<str>, Value)> for ValueSet {
fn from_iter<T: IntoIterator<Item = (Box<str>, Value)>>(iter: T) -> Self {
Self {
values: iter.into_iter().collect(),
}
}
}
impl ValueSet {
fn values(&self, prefix: Prefix) -> impl Iterator<Item = f64> + use<'_> {
self.values
.values()
.map(move |v| v.get(prefix))
.filter(|v| !v.is_nan())
}
pub fn apply(&self, function: &Function, prefix: Prefix) -> f64 {
match function {
Function::None => 0.0,
Function::Sum => self.sum(prefix),
Function::Min => self.min(prefix),
Function::Max => self.max(prefix),
Function::Mean => self.mean(prefix),
Function::Name(name) => self
.values
.get(&Box::from(name.as_str()))
.map(|v| v.get(prefix))
.unwrap_or_default(),
}
}
fn sum(&self, prefix: Prefix) -> f64 {
self.values(prefix).sum()
}
fn min(&self, prefix: Prefix) -> f64 {
self.values(prefix)
.min_by(|a, b| a.partial_cmp(b).unwrap_or(Ordering::Equal))
.unwrap_or_default()
}
fn max(&self, prefix: Prefix) -> f64 {
self.values(prefix)
.max_by(|a, b| a.partial_cmp(b).unwrap_or(Ordering::Equal))
.unwrap_or_default()
}
fn mean(&self, prefix: Prefix) -> f64 {
self.sum(prefix) / self.values.len() as f64
}
}
#[derive(Debug, Default, Clone, Copy, PartialEq)]
pub struct Value {
value: f64,
prefix: Prefix,
}
impl Value {
pub fn new(value: f64) -> Self {
Self::new_with_prefix(value, Prefix::None)
}
pub fn new_with_prefix(value: f64, prefix: Prefix) -> Self {
Self { value, prefix }
}
pub fn get(self, prefix: Prefix) -> f64 {
if prefix == self.prefix {
self.value
} else {
let scale = self.prefix as u64 as f64 / prefix as u64 as f64;
self.value * scale
}
}
}
#[derive(Debug)]
pub struct Client {
system: Mutex<System>,
disks: Mutex<Disks>,
components: Mutex<Components>,
networks: Mutex<Networks>,
load_average: Mutex<LoadAvg>,
}
impl Client {
pub fn new() -> Self {
let refresh_kind = RefreshKind::everything().without_processes();
let system = System::new_with_specifics(refresh_kind);
let disks = Disks::new_with_refreshed_list();
let components = Components::new_with_refreshed_list();
let networks = Networks::new_with_refreshed_list();
let load_average = System::load_average();
Self {
system: Mutex::new(system),
disks: Mutex::new(disks),
components: Mutex::new(components),
networks: Mutex::new(networks),
load_average: Mutex::new(load_average),
}
}
pub fn refresh_cpu(&self) {
lock!(self.system).refresh_cpu_all();
}
pub fn refresh_memory(&self) {
lock!(self.system).refresh_memory();
}
pub fn refresh_network(&self) {
lock!(self.networks).refresh(true);
}
pub fn refresh_temps(&self) {
lock!(self.components).refresh(true);
}
pub fn refresh_disks(&self) {
lock!(self.disks).refresh(true);
}
pub fn refresh_load_average(&self) {
*lock!(self.load_average) = System::load_average();
}
pub fn cpu_frequency(&self) -> ValueSet {
lock!(self.system)
.cpus()
.iter()
.map(|cpu| {
(
cpu.name().into(),
Value::new_with_prefix(cpu.frequency() as f64, Prefix::Mega),
)
})
.collect()
}
pub fn cpu_percent(&self) -> ValueSet {
lock!(self.system)
.cpus()
.iter()
.map(|cpu| (cpu.name().into(), Value::new(cpu.cpu_usage() as f64)))
.collect()
}
pub fn memory_free(&self) -> Value {
Value::new(lock!(self.system).free_memory() as f64)
}
pub fn memory_available(&self) -> Value {
Value::new(lock!(self.system).available_memory() as f64)
}
pub fn memory_total(&self) -> Value {
Value::new(lock!(self.system).total_memory() as f64)
}
pub fn memory_used(&self) -> Value {
Value::new(lock!(self.system).used_memory() as f64)
}
pub fn memory_percent(&self) -> Value {
let total = lock!(self.system).total_memory() as f64;
let used = lock!(self.system).used_memory() as f64;
Value::new(used / total * 100.0)
}
pub fn swap_free(&self) -> Value {
Value::new(lock!(self.system).free_swap() as f64)
}
pub fn swap_total(&self) -> Value {
Value::new(lock!(self.system).total_swap() as f64)
}
pub fn swap_used(&self) -> Value {
Value::new(lock!(self.system).used_swap() as f64)
}
pub fn swap_percent(&self) -> Value {
let total = lock!(self.system).total_swap() as f64;
let used = lock!(self.system).used_swap() as f64;
Value::new(used / total * 100.0)
}
pub fn temp_c(&self) -> ValueSet {
lock!(self.components)
.iter()
.map(|comp| {
(
comp.label().into(),
Value::new(comp.temperature().unwrap_or_default() as f64),
)
})
.collect()
}
pub fn temp_f(&self) -> ValueSet {
lock!(self.components)
.iter()
.map(|comp| {
(
comp.label().into(),
Value::new(c_to_f(comp.temperature().unwrap_or_default() as f64)),
)
})
.collect()
}
pub fn disk_free(&self) -> ValueSet {
lock!(self.disks)
.iter()
.map(|disk| {
(
disk.mount_point().to_string_lossy().into(),
Value::new(disk.available_space() as f64),
)
})
.collect()
}
pub fn disk_total(&self) -> ValueSet {
lock!(self.disks)
.iter()
.map(|disk| {
(
disk.mount_point().to_string_lossy().into(),
Value::new(disk.total_space() as f64),
)
})
.collect()
}
pub fn disk_used(&self) -> ValueSet {
lock!(self.disks)
.iter()
.map(|disk| {
(
disk.mount_point().to_string_lossy().into(),
Value::new((disk.total_space() - disk.available_space()) as f64),
)
})
.collect()
}
pub fn disk_percent(&self) -> ValueSet {
lock!(self.disks)
.iter()
.map(|disk| {
(
disk.mount_point().to_string_lossy().into(),
Value::new(
(disk.total_space() - disk.available_space()) as f64
/ disk.total_space() as f64
* 100.0,
),
)
})
.collect()
}
pub fn disk_read(&self, interval: Interval) -> ValueSet {
lock!(self.disks)
.iter()
.map(|disk| {
(
disk.mount_point().to_string_lossy().into(),
Value::new(disk.usage().read_bytes as f64 / interval.disks() as f64),
)
})
.collect()
}
pub fn disk_write(&self, interval: Interval) -> ValueSet {
lock!(self.disks)
.iter()
.map(|disk| {
(
disk.mount_point().to_string_lossy().into(),
Value::new(disk.usage().written_bytes as f64 / interval.disks() as f64),
)
})
.collect()
}
pub fn net_down(&self, interval: Interval) -> ValueSet {
lock!(self.networks)
.iter()
.map(|(name, net)| {
(
name.as_str().into(),
Value::new(net.received() as f64 / interval.networks() as f64),
)
})
.collect()
}
pub fn net_up(&self, interval: Interval) -> ValueSet {
lock!(self.networks)
.iter()
.map(|(name, net)| {
(
name.as_str().into(),
Value::new(net.transmitted() as f64 / interval.networks() as f64),
)
})
.collect()
}
pub fn load_average_1(&self) -> Value {
Value::new(lock!(self.load_average).one)
}
pub fn load_average_5(&self) -> Value {
Value::new(lock!(self.load_average).five)
}
pub fn load_average_15(&self) -> Value {
Value::new(lock!(self.load_average).fifteen)
}
/// Gets system uptime formatted as `HH:mm`.
pub fn uptime() -> String {
let uptime = System::uptime();
let hours = uptime / 3600;
format!("{:0>2}:{:0>2}", hours, (uptime % 3600) / 60)
}
}
register_client!(Client, sys_info);
const fn c_to_f(c: f64) -> f64 {
c / 5.0 * 9.0 + 32.0
}
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum TokenType {
CpuFrequency,
CpuPercent,
MemoryFree,
MemoryAvailable,
MemoryTotal,
MemoryUsed,
MemoryPercent,
SwapFree,
SwapTotal,
SwapUsed,
SwapPercent,
TempC,
TempF,
DiskFree,
DiskTotal,
DiskUsed,
DiskPercent,
DiskRead,
DiskWrite,
NetDown,
NetUp,
LoadAverage1,
LoadAverage5,
LoadAverage15,
Uptime,
}
impl FromStr for TokenType {
type Err = Report;
fn from_str(s: &str) -> Result<Self> {
match s {
"cpu_frequency" => Ok(Self::CpuFrequency),
"cpu_percent" => Ok(Self::CpuPercent),
"memory_free" => Ok(Self::MemoryFree),
"memory_available" => Ok(Self::MemoryAvailable),
"memory_total" => Ok(Self::MemoryTotal),
"memory_used" => Ok(Self::MemoryUsed),
"memory_percent" => Ok(Self::MemoryPercent),
"swap_free" => Ok(Self::SwapFree),
"swap_total" => Ok(Self::SwapTotal),
"swap_used" => Ok(Self::SwapUsed),
"swap_percent" => Ok(Self::SwapPercent),
"temp_c" => Ok(Self::TempC),
"temp_f" => Ok(Self::TempF),
"disk_free" => Ok(Self::DiskFree),
"disk_total" => Ok(Self::DiskTotal),
"disk_used" => Ok(Self::DiskUsed),
"disk_percent" => Ok(Self::DiskPercent),
"disk_read" => Ok(Self::DiskRead),
"disk_write" => Ok(Self::DiskWrite),
"net_down" => Ok(Self::NetDown),
"net_up" => Ok(Self::NetUp),
"load_average_1" => Ok(Self::LoadAverage1),
"load_average_5" => Ok(Self::LoadAverage5),
"load_average_15" => Ok(Self::LoadAverage15),
"uptime" => Ok(Self::Uptime),
_ => Err(Report::msg(format!("invalid token type: '{s}'"))),
}
}
}
#[cfg(feature = "ipc")]
use crate::ironvar::Namespace;
#[cfg(feature = "ipc")]
impl Namespace for Client {
fn get(&self, key: &str) -> Option<String> {
let get = |value: Value| Some(value.get(Prefix::None).to_string());
let token = TokenType::from_str(key).ok()?;
match token {
TokenType::CpuFrequency => None,
TokenType::CpuPercent => None,
TokenType::MemoryFree => get(self.memory_free()),
TokenType::MemoryAvailable => get(self.memory_available()),
TokenType::MemoryTotal => get(self.memory_total()),
TokenType::MemoryUsed => get(self.memory_used()),
TokenType::MemoryPercent => get(self.memory_percent()),
TokenType::SwapFree => get(self.swap_free()),
TokenType::SwapTotal => get(self.swap_total()),
TokenType::SwapUsed => get(self.swap_used()),
TokenType::SwapPercent => get(self.swap_percent()),
TokenType::TempC => None,
TokenType::TempF => None,
TokenType::DiskFree => None,
TokenType::DiskTotal => None,
TokenType::DiskUsed => None,
TokenType::DiskPercent => None,
TokenType::DiskRead => None,
TokenType::DiskWrite => None,
TokenType::NetDown => None,
TokenType::NetUp => None,
TokenType::LoadAverage1 => get(self.load_average_1()),
TokenType::LoadAverage5 => get(self.load_average_5()),
TokenType::LoadAverage15 => get(self.load_average_15()),
TokenType::Uptime => Some(Client::uptime()),
}
}
fn list(&self) -> Vec<String> {
vec![
"memory_free",
"memory_available",
"memory_total",
"memory_used",
"memory_percent",
"swap_free",
"swap_total",
"swap_used",
"swap_percent",
"load_average_1",
"load_average_5",
"load_average_15",
"uptime",
]
.into_iter()
.map(ToString::to_string)
.collect()
}
fn namespaces(&self) -> Vec<String> {
vec![
"cpu_frequency",
"cpu_percent",
"temp_c",
"temp_f",
"disk_free",
"disk_total",
"disk_used",
"disk_percent",
"disk_read",
"disk_write",
"net_down",
"net_up",
]
.into_iter()
.map(ToString::to_string)
.collect()
}
fn get_namespace(&self, key: &str) -> Option<Arc<dyn Namespace + Sync + Send>> {
let token = TokenType::from_str(key).ok()?;
match token {
TokenType::CpuFrequency => Some(Arc::new(self.cpu_frequency())),
TokenType::CpuPercent => Some(Arc::new(self.cpu_percent())),
TokenType::MemoryFree => None,
TokenType::MemoryAvailable => None,
TokenType::MemoryTotal => None,
TokenType::MemoryUsed => None,
TokenType::MemoryPercent => None,
TokenType::SwapFree => None,
TokenType::SwapTotal => None,
TokenType::SwapUsed => None,
TokenType::SwapPercent => None,
TokenType::TempC => Some(Arc::new(self.temp_c())),
TokenType::TempF => Some(Arc::new(self.temp_f())),
TokenType::DiskFree => Some(Arc::new(self.disk_free())),
TokenType::DiskTotal => Some(Arc::new(self.disk_total())),
TokenType::DiskUsed => Some(Arc::new(self.disk_used())),
TokenType::DiskPercent => Some(Arc::new(self.disk_percent())),
TokenType::DiskRead => Some(Arc::new(self.disk_read(Interval::All(1)))),
TokenType::DiskWrite => Some(Arc::new(self.disk_write(Interval::All(1)))),
TokenType::NetDown => Some(Arc::new(self.net_down(Interval::All(1)))),
TokenType::NetUp => Some(Arc::new(self.net_up(Interval::All(1)))),
TokenType::LoadAverage1 => None,
TokenType::LoadAverage5 => None,
TokenType::LoadAverage15 => None,
TokenType::Uptime => None,
}
}
}
#[cfg(feature = "ipc")]
impl Namespace for ValueSet {
fn get(&self, key: &str) -> Option<String> {
let function = Function::from_str(key).ok()?;
Some(self.apply(&function, Prefix::None).to_string())
}
fn list(&self) -> Vec<String> {
let mut vec = vec!["sum", "min", "max", "mean"]
.into_iter()
.map(ToString::to_string)
.collect::<Vec<_>>();
vec.extend(self.values.keys().map(ToString::to_string));
vec
}
fn namespaces(&self) -> Vec<String> {
vec![]
}
fn get_namespace(&self, _key: &str) -> Option<Arc<dyn Namespace + Sync + Send>> {
None
}
}
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