use anyhow::{bail, Context, Result}; use std::{ cmp::Ordering, fs::{self, read_dir}, path::PathBuf, }; use crate::{ info_file::{ExerciseInfo, InfoFile}, CURRENT_FORMAT_VERSION, DEVELOPING_OFFICIAL_RUSTLINGS, }; fn forbidden_char(input: &str) -> Option { input.chars().find(|c| *c != '_' && !c.is_alphanumeric()) } fn check_info_file_exercises(info_file: &InfoFile) -> Result> { let mut names = hashbrown::HashSet::with_capacity(info_file.exercises.len()); let mut paths = hashbrown::HashSet::with_capacity(info_file.exercises.len()); for exercise_info in &info_file.exercises { if let Some(c) = forbidden_char(&exercise_info.name) { bail!( "Char `{c}` in the exercise name `{}` is not allowed", exercise_info.name, ); } if let Some(dir) = &exercise_info.dir { if let Some(c) = forbidden_char(dir) { bail!("Char `{c}` in the exercise dir `{dir}` is not allowed"); } } if !names.insert(exercise_info.name.as_str()) { bail!( "The exercise name {} is duplicated. Exercise names must all be unique", exercise_info.name, ); } paths.insert(PathBuf::from(exercise_info.path())); } Ok(paths) } fn check_exercise_dir_files( info_file: &InfoFile, info_file_paths: hashbrown::HashSet, ) -> Result> { let mut names = hashbrown::HashSet::with_capacity(info_file.exercises.len()); for entry in read_dir("exercises").context("Failed to open the `exercises` directory")? { let entry = entry.context("Failed to read the `exercises` directory")?; if entry.file_type().unwrap().is_file() { let path = entry.path(); let file_name = path.file_name().unwrap(); if file_name == "README.md" { continue; } if !info_file_paths.contains(&path) { bail!("`{}` is expected to be an exercise file corresponding to some exercise in `info.toml`", path.display()); } let file_name = file_name.to_string_lossy(); names.insert(file_name[..file_name.len() - 3].to_string()); continue; } let dir_path = entry.path(); for entry in read_dir(&dir_path) .with_context(|| format!("Failed to open the directory {}", dir_path.display()))? { let entry = entry .with_context(|| format!("Failed to read the directory {}", dir_path.display()))?; let path = entry.path(); if !entry.file_type().unwrap().is_file() { bail!("Found {} but expected only files", path.display()); } let file_name = path.file_name().unwrap(); if file_name == "README.md" { continue; } if !info_file_paths.contains(&path) { bail!("`{}` is expected to be an exercise file corresponding to some exercise in `info.toml`", path.display()); } // The file name must be valid Unicode with the `.rs` extension // because it is part of the info file paths. let file_name = file_name.to_string_lossy(); let file_name_without_rs_extension = file_name[..file_name.len() - 3].to_string(); names.insert(file_name_without_rs_extension); } } Ok(names) } fn check_info_file(info_file: &InfoFile) -> Result<()> { match info_file.format_version.cmp(&CURRENT_FORMAT_VERSION) { Ordering::Less => bail!("`format_version` < {CURRENT_FORMAT_VERSION} (supported version)\nPlease migrate to the latest format version"), Ordering::Greater => bail!("`format_version` > {CURRENT_FORMAT_VERSION} (supported version)\nTry updating the Rustlings program"), Ordering::Equal => (), } let info_file_paths = check_info_file_exercises(info_file)?; let names_in_exercises_dir = check_exercise_dir_files(info_file, info_file_paths)?; // Now, we know that every file has an exercise in `info.toml`. // But we need to check that every exercise in `info.toml` has a file. if names_in_exercises_dir.len() != info_file.exercises.len() { for exercise_info in &info_file.exercises { if !names_in_exercises_dir.contains(&exercise_info.name) { bail!("The file `{}` is missing", exercise_info.path()); } } } Ok(()) } pub fn bins_start_end_ind(cargo_toml: &str) -> Result<(usize, usize)> { let start_ind = cargo_toml .find("bin = [") .context("Failed to find the start of the `bin` list (`bin = [`)")? + 7; let end_ind = start_ind + cargo_toml .get(start_ind..) .and_then(|slice| slice.as_bytes().iter().position(|c| *c == b']')) .context("Failed to find the end of the `bin` list (`]`)")?; Ok((start_ind, end_ind)) } pub fn append_bins( buf: &mut Vec, exercise_infos: &[ExerciseInfo], exercise_path_prefix: &[u8], ) { buf.push(b'\n'); for exercise_info in exercise_infos { buf.extend_from_slice(b" { name = \""); buf.extend_from_slice(exercise_info.name.as_bytes()); buf.extend_from_slice(b"\", path = \""); buf.extend_from_slice(exercise_path_prefix); buf.extend_from_slice(b"exercises/"); if let Some(dir) = &exercise_info.dir { buf.extend_from_slice(dir.as_bytes()); buf.push(b'/'); } buf.extend_from_slice(exercise_info.name.as_bytes()); buf.extend_from_slice(b".rs\" },\n"); } } fn check_cargo_toml( exercise_infos: &[ExerciseInfo], current_cargo_toml: &str, exercise_path_prefix: &[u8], ) -> Result<()> { let (bins_start_ind, bins_end_ind) = bins_start_end_ind(current_cargo_toml)?; let old_bins = ¤t_cargo_toml.as_bytes()[bins_start_ind..bins_end_ind]; let mut new_bins = Vec::with_capacity(1 << 13); append_bins(&mut new_bins, exercise_infos, exercise_path_prefix); if old_bins != new_bins { bail!("`Cargo.toml` is outdated. Run `rustlings dev update` to update it"); } Ok(()) } pub fn check() -> Result<()> { let info_file = InfoFile::parse()?; check_info_file(&info_file)?; if DEVELOPING_OFFICIAL_RUSTLINGS { check_cargo_toml( &info_file.exercises, include_str!("../../dev/Cargo.toml"), b"../", ) .context("The file `dev/Cargo.toml` is outdated. Please run `cargo run -- dev update` to update it")?; } else { let current_cargo_toml = fs::read_to_string("Cargo.toml").context("Failed to read the file `Cargo.toml`")?; check_cargo_toml(&info_file.exercises, ¤t_cargo_toml, b"").context( "The file `Cargo.toml` is outdated. Please run `rustlings dev update` to update it", )?; } println!("\nEverything looks fine!"); Ok(()) }