use crate::{Command, ListNode, Tab}; use ego_tree::{NodeMut, Tree}; use include_dir::{include_dir, Dir}; use serde::Deserialize; use std::{ fs::File, io::{BufRead, BufReader, Read}, ops::{Deref, DerefMut}, os::unix::fs::PermissionsExt, path::{Path, PathBuf}, rc::Rc, }; use temp_dir::TempDir; const TAB_DATA: Dir = include_dir!("$CARGO_MANIFEST_DIR/tabs"); // Allow the unused TempDir to be stored for later destructor call #[allow(dead_code)] pub struct TabList(pub Vec, TempDir); // Implement deref to allow Vec methods to be called on TabList impl Deref for TabList { type Target = Vec; fn deref(&self) -> &Self::Target { &self.0 } } impl DerefMut for TabList { fn deref_mut(&mut self) -> &mut Self::Target { &mut self.0 } } impl IntoIterator for TabList { type Item = Tab; type IntoIter = std::vec::IntoIter; fn into_iter(self) -> Self::IntoIter { self.0.into_iter() } } pub fn get_tabs(validate: bool) -> TabList { let (temp_dir, tab_files) = TabDirectories::get_tabs(); let tabs: Vec<_> = tab_files .into_iter() .map(|path| { let directory = path.parent().unwrap().to_owned(); let data = std::fs::read_to_string(path).expect("Failed to read tab data"); let mut tab_data: TabEntry = toml::from_str(&data).expect("Failed to parse tab data"); if validate { filter_entries(&mut tab_data.data); } (tab_data, directory) }) .collect(); let tabs: Vec = tabs .into_iter() .map(|(TabEntry { name, data }, directory)| { let mut tree = Tree::new(Rc::new(ListNode { name: "root".to_string(), description: String::new(), command: Command::None, task_list: String::new(), multi_select: false, })); let mut root = tree.root_mut(); create_directory(data, &mut root, &directory, validate, true); Tab { name, tree } }) .collect(); if tabs.is_empty() { panic!("No tabs found"); } TabList(tabs, temp_dir) } #[derive(Deserialize)] struct TabDirectories { directories: Vec, } #[derive(Deserialize)] struct TabEntry { name: String, data: Vec, } #[derive(Deserialize)] struct Entry { name: String, #[allow(dead_code)] #[serde(default)] description: String, #[serde(default)] preconditions: Option>, #[serde(flatten)] entry_type: EntryType, #[serde(default)] task_list: String, #[serde(default = "default_true")] multi_select: bool, } fn default_true() -> bool { true } #[derive(Deserialize)] enum EntryType { #[serde(rename = "entries")] Entries(Vec), #[serde(rename = "command")] Command(String), #[serde(rename = "script")] Script(PathBuf), } impl Entry { fn is_supported(&self) -> bool { self.preconditions.as_deref().map_or(true, |preconditions| { preconditions.iter().all( |Precondition { matches, data, values, }| { match data { SystemDataType::Environment(var_name) => std::env::var(var_name) .map_or(false, |var| values.contains(&var) == *matches), SystemDataType::File(path) => { std::fs::read_to_string(path).map_or(false, |data| { values .iter() .any(|matching_value| data.contains(matching_value)) == *matches }) } SystemDataType::CommandExists => values .iter() .all(|command| which::which(command).is_ok() == *matches), } }, ) }) } } #[derive(Deserialize)] struct Precondition { // If true, the data must be contained within the list of values. // Otherwise, the data must not be contained within the list of values matches: bool, data: SystemDataType, values: Vec, } #[derive(Deserialize)] enum SystemDataType { #[serde(rename = "environment")] Environment(String), #[serde(rename = "file")] File(PathBuf), #[serde(rename = "command_exists")] CommandExists, } fn filter_entries(entries: &mut Vec) { entries.retain_mut(|entry| { if !entry.is_supported() { return false; } if let EntryType::Entries(entries) = &mut entry.entry_type { filter_entries(entries); !entries.is_empty() } else { true } }); } fn create_directory( data: Vec, node: &mut NodeMut>, command_dir: &Path, validate: bool, parent_multi_select: bool, ) { for entry in data { let multi_select = parent_multi_select && entry.multi_select; match entry.entry_type { EntryType::Entries(entries) => { let mut node = node.append(Rc::new(ListNode { name: entry.name, description: entry.description, command: Command::None, task_list: String::new(), multi_select, })); create_directory(entries, &mut node, command_dir, validate, multi_select); } EntryType::Command(command) => { node.append(Rc::new(ListNode { name: entry.name, description: entry.description, command: Command::Raw(command), task_list: String::new(), multi_select, })); } EntryType::Script(script) => { let script = command_dir.join(script); if !script.exists() { panic!("Script {} does not exist", script.display()); } if let Some((executable, args)) = get_shebang(&script, validate) { node.append(Rc::new(ListNode { name: entry.name, description: entry.description, command: Command::LocalFile { executable, args, file: script, }, task_list: entry.task_list, multi_select, })); } } } } } fn get_shebang(script_path: &Path, validate: bool) -> Option<(String, Vec)> { let default_executable = || Some(("/bin/sh".into(), vec!["-e".into()])); let script = File::open(script_path).expect("Failed to open script file"); let mut reader = BufReader::new(script); // Take the first 2 characters from the reader; check whether it's a shebang let mut two_chars = [0; 2]; if reader.read_exact(&mut two_chars).is_err() || two_chars != *b"#!" { return default_executable(); } let first_line = reader.lines().next().unwrap().unwrap(); let mut parts = first_line.split_whitespace(); let Some(executable) = parts.next() else { return default_executable(); }; let is_valid = !validate || is_executable(Path::new(executable)); is_valid.then(|| { let mut args: Vec = parts.map(ToString::to_string).collect(); args.push(script_path.to_string_lossy().to_string()); (executable.to_string(), args) }) } fn is_executable(path: &Path) -> bool { path.metadata() .map(|metadata| metadata.is_file() && metadata.permissions().mode() & 0o111 != 0) .unwrap_or(false) } impl TabDirectories { fn get_tabs() -> (TempDir, Vec) { let temp_dir = TempDir::with_prefix("linutil_scripts").unwrap(); TAB_DATA .extract(&temp_dir) .expect("Failed to extract the saved directory"); let tab_files = std::fs::read_to_string(temp_dir.path().join("tabs.toml")) .expect("Failed to read tabs.toml"); let data: Self = toml::from_str(&tab_files).expect("Failed to parse tabs.toml"); let tab_paths = data .directories .iter() .map(|path| temp_dir.path().join(path).join("tab_data.toml")) .collect(); (temp_dir, tab_paths) } }