use chrono::prelude::*; use minreq; use std::env; use std::fs::File; use std::io::Error; use std::io::Read; use std::process::Command; use std::sync::mpsc; use std::thread; use std::time::Duration; use yaml_rust::{yaml, YamlLoader}; #[derive(Debug)] pub enum ThreadsData { Sound(String), Disk(String), Memory(String), Time(String), Weather(String), } #[derive(Clone)] pub struct Config { pub seperator: String, pub time: Time, pub memory: Memory, pub disk: Disk, pub volume: Volume, pub weather: Weather, } #[derive(Clone)] pub struct Time { pub format: String, pub icon: String, pub delay: f64, } #[derive(Clone)] pub struct Memory { pub icon: String, pub enabled: bool, pub delay: f64, } #[derive(Clone)] pub struct Disk { pub icon: String, pub enabled: bool, pub delay: f64, } #[derive(Clone)] pub struct Volume { pub icon: String, pub enabled: bool, pub delay: f64, } #[derive(Clone)] pub struct Weather { pub city: String, pub format: String, pub icon: String, pub enabled: bool, pub delay: f64, } /* // TODO: error handling required if rsblocks.yml file is empty this function is responsible to check if the rsblocks.yml file exists to call parse_config to read it OTHERWISE it will call load_defaults to load a hardcoded default configuration it will always return a valid configuration inside a Result. */ pub fn load_config() -> Result { let yml_source = env::var("HOME").unwrap() + "/.config/rsblocks/rsblocks.yml"; let mut data = String::new(); let mut file = match File::open(&yml_source) { Ok(file) => file, Err(_) => { eprintln!("{} file not found, loading defaults!", &yml_source); return Ok(load_defaults()); } }; file.read_to_string(&mut data)?; let yml_content = &YamlLoader::load_from_str(&data).unwrap()[0]; let config = parse_config(yml_content); Ok(config) } /* this is simply returns a hardcoded configuration as default */ fn load_defaults() -> Config { Config { seperator: String::from("|"), time: Time { format: String::from("%T"), icon: String::from(""), delay: 1.0, }, memory: Memory { icon: String::from(""), enabled: true, delay: 2.0, }, disk: Disk { icon: String::from(""), enabled: false, delay: 60.0, }, volume: Volume { icon: String::from(""), enabled: false, delay: 0.17, }, weather: Weather { city: String::from(""), format: String::from("+%t"), icon: String::from(""), enabled: false, delay: 7200.0, //7200 seconds = 2 hours }, } } /* it will read and parse the rsblocks.yml file content and return a valid configuration IF some content is missing in the rsblocks.yml file, it will set a default values to that */ fn parse_config(doc: &yaml::Yaml) -> Config { // parsing icons and set default if not exist in the config file let seperator = get_or_set_string(doc, "general", "seperator", "|"); let time_icon = get_or_set_string(doc, "time", "icon", ""); let mem_icon = get_or_set_string(doc, "memory", "icon", ""); let disk_icon = get_or_set_string(doc, "disk", "icon", ""); let volume_icon = get_or_set_string(doc, "volume", "icon", ""); let weather_icon = get_or_set_string(doc, "weather", "icon", ""); //parsing formats and city weather let time_format = get_or_set_string(doc, "time", "format", "%T"); let weather_format = get_or_set_string(doc, "weather", "format", "%l:+%t"); let weather_city = get_or_set_string(doc, "weather", "city", ""); // parsing enabled state (everything false by default) let disk_enabled = get_or_set_bool(doc, "disk", "enable"); let memory_enabled = get_or_set_bool(doc, "memory", "enable"); let volume_enabled = get_or_set_bool(doc, "volume", "enable"); let weather_enabled = get_or_set_bool(doc, "weather", "enable"); // parsing update_delay state (should be all seconds in f64 type) let time_delay = get_or_set_f32(doc, "time", "delay", 1.0); let disk_delay = get_or_set_f32(doc, "disk", "delay", 120.0); let memory_delay = get_or_set_f32(doc, "memory", "delay", 2.0); let volume_delay = get_or_set_f32(doc, "volume", "delay", 0.17); let weather_delay = get_or_set_f32(doc, "weather", "delay", 7200.0); Config { seperator, time: Time { format: time_format, icon: time_icon, delay: time_delay, }, memory: Memory { icon: mem_icon, enabled: memory_enabled, delay: memory_delay, }, disk: Disk { icon: disk_icon, enabled: disk_enabled, delay: disk_delay, }, volume: Volume { icon: volume_icon, enabled: volume_enabled, delay: volume_delay, }, weather: Weather { city: weather_city, format: weather_format, icon: weather_icon, enabled: weather_enabled, delay: weather_delay, }, } } // getting a f32 value from rsblocks.yml file or set default (last argument) fn get_or_set_f32(doc: &yaml::Yaml, parent: &str, child: &str, default: f64) -> f64 { let val: f64 = if doc[parent][child].is_badvalue() { default } else { doc[parent][child].as_f64().unwrap() }; val } // getting a boolean value from rsblocks.yml file or set it false if it does not exist fn get_or_set_bool(doc: &yaml::Yaml, parent: &str, child: &str) -> bool { let val: bool; if doc[parent][child].is_badvalue() { val = false; } else { val = doc[parent][child].as_bool().unwrap() } val } // getting a String value from the rsblocks.yml file or set the default(last argument) fn get_or_set_string(doc: &yaml::Yaml, parent: &str, child: &str, default_val: &str) -> String { let val: String; if doc[parent][child].is_badvalue() { val = String::from(default_val) } else { val = String::from(doc[parent][child].as_str().unwrap()); } val } /*######################## LOADING CONFIGS ENDS HERE ############################ */ /* Running the program: TODO: this is sucks, repeated code in threads below, fix me you fucking asshole */ pub fn run(config: Config) { let (tx, rx) = mpsc::channel(); // volume thread if config.volume.enabled { let volume_tx = tx.clone(); let configcp = config.clone(); let mut vol_data = ThreadsData::Sound(get_volume(&configcp)); thread::spawn(move || loop { let _ = volume_tx.send(vol_data); vol_data = ThreadsData::Sound(get_volume(&configcp)); thread::sleep(Duration::from_secs_f64(configcp.volume.delay)) }); } // Disk thread if config.disk.enabled { let disk_tx = tx.clone(); let configcp = config.clone(); let mut disk_data = ThreadsData::Disk(get_disk(&configcp)); thread::spawn(move || loop { disk_tx.send(disk_data).unwrap(); disk_data = ThreadsData::Disk(get_disk(&configcp)); thread::sleep(Duration::from_secs_f64(configcp.disk.delay)) }); } // Memory thread if config.memory.enabled { let memory_tx = tx.clone(); let configcp = config.clone(); let memory_data = get_memory(&configcp).unwrap(); let mut memory_data = ThreadsData::Memory(memory_data); thread::spawn(move || loop { memory_tx.send(memory_data).unwrap(); memory_data = ThreadsData::Memory(get_memory(&configcp).unwrap()); thread::sleep(Duration::from_secs_f64(configcp.memory.delay)) }); } // Weather thread if config.weather.enabled { let weather_tx = tx.clone(); let configcp = config.clone(); let weather_data = get_weather(&configcp); let mut weather_data = ThreadsData::Weather(weather_data); thread::spawn(move || loop { weather_tx.send(weather_data).unwrap(); weather_data = ThreadsData::Weather(get_weather(&configcp)); thread::sleep(Duration::from_secs_f64(configcp.weather.delay)) }); } // Time thread { let time_tx = tx; let configcp = config.clone(); let mut time_data = ThreadsData::Time(get_time(&configcp)); thread::spawn(move || loop { time_tx.send(time_data).unwrap(); time_data = ThreadsData::Time(get_time(&configcp)); thread::sleep(Duration::from_secs_f64(configcp.time.delay)) }); } //Main { // NOTE: order matters to the final format let mut bar: Vec = vec!["".to_string(); 5]; //iterating the values recieved from the threads for data in rx { match data { ThreadsData::Sound(x) => bar[0] = x, ThreadsData::Weather(x) => bar[1] = x, ThreadsData::Disk(x) => bar[2] = x, ThreadsData::Memory(x) => bar[3] = x, ThreadsData::Time(x) => bar[4] = x, } // match ends here update(&bar); } } } /* this will call the command 'xsetroot -name ' */ pub fn update(bar: &Vec) { // TODO: FIX ME, this solution sucks let mut x = String::new(); for i in bar.iter() { x.push_str(i.as_str()); } Command::new("xsetroot") .arg("-name") .arg(x) .output() .unwrap(); } /*############################ RUNNING THE PROGRAM ENDS HERE ###########################################*/ /* ############################# HELPER FUNCTIONS BELOW ################################### */ pub fn get_time(config: &Config) -> String { let now = Local::now(); format!( " {} {} {}", config.time.icon, now.format(&config.time.format), config.seperator ) } /* CREDIT: thanks for wttr.in to use their API will make a GET request from wttr.in */ fn get_weather(config: &Config) -> String { let format = if config.weather.format.is_empty() { String::from("%l:+%t") } else { config.weather.format.clone() }; let url = format!("http://wttr.in/{}?format=\"{}", config.weather.city, format); let err_string = String::from("Error"); let res = match minreq::get(url).send() { Ok(resp) => match resp.as_str() { Ok(res_str) => res_str.trim_matches('"').to_string(), Err(_) => err_string, }, Err(_) => err_string, }; format!(" {} {} {}", config.weather.icon, res, config.seperator) } pub fn get_disk(config: &Config) -> String { let cmd = Command::new("sh") .arg("-c") .args(&["df -h"]) .output() .unwrap(); let output = String::from_utf8_lossy(&cmd.stdout); let mut disk_used = String::new(); for line in output.lines() { if line.ends_with('/') { let splited = line.split_whitespace().collect::>(); disk_used = splited[2].to_string(); break; } } format!( " {} {} {}", config.disk.icon, disk_used, config.seperator ) } // FIX ME: what a horrible solution to get the sound, i dont like it // find another way pub fn get_volume(config: &Config) -> String { let cmd_content = Command::new("amixer") .args(&["-D", "pulse", "get", "Master"]) .output() .expect("Make sure that you have alsa-utils installed on your system"); let vol: String = String::from_utf8_lossy(&cmd_content.stdout) .lines() .last() .expect("failed to get sound volume") .split('[') .collect::>()[1] .split(']') .collect::>()[0] .trim() .to_string(); format!(" {} {} {}", config.volume.icon, vol, config.seperator) } /* mem_used = (mem_total + shmem - mem_free - mem_buffers - mem_cached - mem_srecl thanks for htop's developer on stackoverflow for providing this algorithm to calculate used memory. */ pub fn get_memory(config: &Config) -> Result { let mut buf = String::new(); File::open("/proc/meminfo")?.read_to_string(&mut buf)?; let mut mem_total: u32 = 0; let mut shmem: u32 = 0; let mut mem_free: u32 = 0; let mut mem_buffers: u32 = 0; let mut mem_cached: u32 = 0; let mut mem_srecl: u32 = 0; for line in buf.lines() { if mem_total > 0 && shmem > 0 && mem_free > 0 && mem_buffers > 0 && mem_cached > 0 && mem_srecl > 0 { break; } if line.starts_with("MemTotal") { assign_val(line, &mut mem_total); } if line.starts_with("SReclaimable") { assign_val(line, &mut mem_srecl) } if line.starts_with("Cached") { assign_val(line, &mut mem_cached) } if line.starts_with("Shmem") { assign_val(line, &mut shmem); } if line.starts_with("MemFree") { assign_val(line, &mut mem_free); } if line.starts_with("Buffers") { assign_val(line, &mut mem_buffers); } } let mem_used = (mem_total + shmem - mem_free - mem_buffers - mem_cached - mem_srecl) / 1024; let result: String; if mem_used > 1000 { result = format!( " {} {:.1}G {}", config.memory.icon, mem_used as f32 / 1000.0, config.seperator ); } else { result = format!( " {} {}M {}", config.memory.icon, mem_used, config.seperator ); } Ok(result) } /* this helper function will split the line(first argument) by the character(:) and then parse the right splited item as u32 then assign that to the "assignable"(2nd argument). */ fn assign_val(line: &str, assignable: &mut u32) { let parsed: u32 = line.split(':').collect::>()[1] .trim() .split(' ') .collect::>()[0] .parse() .unwrap(); *assignable = parsed; }