use crate::{LineNumber, PatternError, PatternFileError}; use regex::bytes::Regex; use std::collections::HashMap; use std::fs::File; use std::io::Read; use std::vec::Vec; use utils::files::get_path_from_bytes; use utils::{replace_slice, SliceExt}; lazy_static! { static ref reescape: Vec> = { let mut v: Vec> = (0..=255).map(|byte| vec![byte]).collect(); let to_escape = b"()[]{}?*+-|^$\\.&~# \t\n\r\x0b\x0c"; for byte in to_escape { v[*byte as usize].insert(0, b'\\'); } v }; } /// These are matched in order const GLOB_REPLACEMENTS: &[(&[u8], &[u8])] = &[(b"*/", b"(?:.*/)?"), (b"*", b".*"), (b"", b"[^/]*")]; #[derive(Debug, Copy, Clone, PartialEq, Eq)] pub enum PatternSyntax { Regexp, /// Glob that matches at the front of the path RootGlob, /// Glob that matches at any suffix of the path (still anchored at slashes) Glob, Path, RelPath, RelGlob, RelRegexp, RootFiles, } /// Transforms a glob pattern into a regex fn glob_to_re(pat: &[u8]) -> Vec { let mut input = pat; let mut res: Vec = vec![]; let mut group_depth = 0; while let Some((c, rest)) = input.split_first() { input = rest; match c { b'*' => { for (source, repl) in GLOB_REPLACEMENTS { if input.starts_with(source) { input = &input[source.len()..]; res.extend(*repl); break; } } } b'?' => res.extend(b"."), b'[' => { match input.iter().skip(1).position(|b| *b == b']') { None => res.extend(b"\\["), Some(end) => { // Account for the one we skipped let end = end + 1; res.extend(b"["); for (i, b) in input[..end].iter().enumerate() { if *b == b'!' && i == 0 { res.extend(b"^") } else if *b == b'^' && i == 0 { res.extend(b"\\^") } else if *b == b'\\' { res.extend(b"\\\\") } else { res.push(*b) } } res.extend(b"]"); input = &input[end + 1..]; } } } b'{' => { group_depth += 1; res.extend(b"(?:") } b'}' if group_depth > 0 => { group_depth -= 1; res.extend(b")"); } b',' if group_depth > 0 => res.extend(b"|"), b'\\' => { let c = { if let Some((c, rest)) = input.split_first() { input = rest; c } else { c } }; res.extend(&reescape[*c as usize]) } _ => res.extend(&reescape[*c as usize]), } } res } fn escape_pattern(pattern: &[u8]) -> Vec { pattern .iter() .flat_map(|c| reescape[*c as usize].clone()) .collect() } fn parse_pattern_syntax(kind: &[u8]) -> Result { match kind { b"re" => Ok(PatternSyntax::Regexp), b"path" => Ok(PatternSyntax::Path), b"relpath" => Ok(PatternSyntax::RelPath), b"rootfilesin" => Ok(PatternSyntax::RootFiles), b"relglob" => Ok(PatternSyntax::RelGlob), b"relre" => Ok(PatternSyntax::RelRegexp), b"glob" => Ok(PatternSyntax::Glob), b"rootglob" => Ok(PatternSyntax::RootGlob), _ => Err(PatternError::UnsupportedSyntax( String::from_utf8_lossy(kind).to_string(), )), } } /// Builds the regex that corresponds to the given pattern. /// If within a `syntax: regexp` context, returns the pattern, /// otherwise, returns the corresponding regex. fn _build_single_regex( syntax: PatternSyntax, pattern: &[u8], globsuffix: &[u8], ) -> Vec { if pattern.is_empty() { return vec![]; } match syntax { PatternSyntax::Regexp => pattern.to_owned(), PatternSyntax::RelRegexp => { if pattern[0] == b'^' { return pattern.to_owned(); } let mut res = b".*".to_vec(); res.extend(pattern); res } PatternSyntax::Path | PatternSyntax::RelPath => { if pattern == b"." { return vec![]; } let mut pattern = escape_pattern(pattern); pattern.extend(b"(?:/|$)"); pattern } PatternSyntax::RootFiles => { let mut res = if pattern == b"." { vec![] } else { // Pattern is a directory name. let mut as_vec: Vec = escape_pattern(pattern); as_vec.push(b'/'); as_vec }; // Anything after the pattern must be a non-directory. res.extend(b"[^/]+$"); res } PatternSyntax::Glob | PatternSyntax::RelGlob | PatternSyntax::RootGlob => { let mut res: Vec = vec![]; if syntax == PatternSyntax::RelGlob { res.extend(b"(?:|.*/)"); } res.extend(glob_to_re(pattern)); res.extend(globsuffix.iter()); res } } } const GLOB_SPECIAL_CHARACTERS: [u8; 7] = [b'*', b'?', b'[', b']', b'{', b'}', b'\\']; /// Wrapper function to `_build_single_regex` that short-circuits 'exact' globs /// that don't need to be transformed into a regex. pub fn build_single_regex( kind: &[u8], pat: &[u8], globsuffix: &[u8], ) -> Result, PatternError> { let enum_kind = parse_pattern_syntax(kind)?; if enum_kind == PatternSyntax::RootGlob && !pat.iter().any(|b| GLOB_SPECIAL_CHARACTERS.contains(b)) { let mut escaped = escape_pattern(pat); escaped.extend(b"(?:/|$)"); Ok(escaped) } else { Ok(_build_single_regex(enum_kind, pat, globsuffix)) } } lazy_static! { static ref SYNTAXES: HashMap<&'static [u8], &'static [u8]> = { let mut m = HashMap::new(); m.insert(b"re".as_ref(), b"relre:".as_ref()); m.insert(b"regexp".as_ref(), b"relre:".as_ref()); m.insert(b"glob".as_ref(), b"relglob:".as_ref()); m.insert(b"rootglob".as_ref(), b"rootglob:".as_ref()); m.insert(b"include".as_ref(), b"include".as_ref()); m.insert(b"subinclude".as_ref(), b"subinclude".as_ref()); m }; } pub type PatternTuple = (Vec, LineNumber, Vec); type WarningTuple = (String, String); pub fn parse_pattern_file_contents( lines: &[u8], file_path: &[u8], warn: bool, ) -> (Vec, Vec) { let comment_regex = Regex::new(r"((?:^|[^\\])(?:\\\\)*)#.*").unwrap(); let mut inputs: Vec = vec![]; let mut warnings: Vec = vec![]; let mut current_syntax = b"relre:".as_ref(); for (line_number, mut line) in lines.split(|c| *c == b'\n').enumerate() { let line_number = line_number + 1; if line.contains(&('#' as u8)) { if let Some(cap) = comment_regex.captures(line) { line = &line[..cap.get(1).unwrap().end()] } let mut line = line.to_owned(); replace_slice(&mut line, br"\#", b"#"); } let mut line = line.trim_end(); if line.is_empty() { continue; } if line.starts_with(b"syntax:") { let syntax = line[b"syntax:".len()..].trim(); if let Some(rel_syntax) = SYNTAXES.get(syntax) { current_syntax = rel_syntax; } else if warn { warnings.push(( String::from_utf8_lossy(file_path).to_string(), String::from_utf8_lossy(syntax).to_string(), )); } continue; } let mut line_syntax: &[u8] = ¤t_syntax; for (s, rels) in SYNTAXES.iter() { if line.starts_with(rels) { line_syntax = rels; line = &line[rels.len()..]; break; } else if line.starts_with(&[s, b":".as_ref()].concat()) { line_syntax = rels; line = &line[s.len() + 1..]; break; } } inputs.push(( [line_syntax, line].concat(), line_number, line.to_owned(), )); } (inputs, warnings) } pub fn read_pattern_file( file_path: &[u8], warn: bool, ) -> Result<(Vec, Vec), PatternFileError> { let mut f = File::open(get_path_from_bytes(file_path))?; let mut contents = Vec::new(); f.read_to_end(&mut contents)?; Ok(parse_pattern_file_contents(&contents, file_path, warn)) } #[cfg(test)] mod tests { use super::*; #[test] fn escape_pattern_test() { let untouched = br#"!"%',/0123456789:;<=>@ABCDEFGHIJKLMNOPQRSTUVWXYZ_`abcdefghijklmnopqrstuvwxyz"#; assert_eq!(escape_pattern(untouched), untouched.to_vec()); // All escape codes assert_eq!( escape_pattern(br#"()[]{}?*+-|^$\\.&~# \t\n\r\v\f"#), br#"\(\)\[\]\{\}\?\*\+\-\|\^\$\\\\\.\&\~\#\ \\t\\n\\r\\v\\f"# .to_vec() ); } #[test] fn glob_test() { assert_eq!(glob_to_re(br#"?"#), br#"."#); assert_eq!(glob_to_re(br#"*"#), br#"[^/]*"#); assert_eq!(glob_to_re(br#"**"#), br#".*"#); assert_eq!(glob_to_re(br#"**/a"#), br#"(?:.*/)?a"#); assert_eq!(glob_to_re(br#"a/**/b"#), br#"a/(?:.*/)?b"#); assert_eq!(glob_to_re(br#"[a*?!^][^b][!c]"#), br#"[a*?!^][\^b][^c]"#); assert_eq!(glob_to_re(br#"{a,b}"#), br#"(?:a|b)"#); assert_eq!(glob_to_re(br#".\*\?"#), br#"\.\*\?"#); } #[test] fn test_parse_pattern_file_contents() { let lines = b"syntax: glob\n*.elc"; assert_eq!( vec![(b"relglob:*.elc".to_vec(), 2, b"*.elc".to_vec())], parse_pattern_file_contents(lines, b"file_path", false).0, ); let lines = b"syntax: include\nsyntax: glob"; assert_eq!( parse_pattern_file_contents(lines, b"file_path", false).0, vec![] ); let lines = b"glob:**.o"; assert_eq!( parse_pattern_file_contents(lines, b"file_path", false).0, vec![(b"relglob:**.o".to_vec(), 1, b"**.o".to_vec())] ); } #[test] fn test_build_single_regex_shortcut() { assert_eq!( br"(?:/|$)".to_vec(), build_single_regex(b"rootglob", b"", b"").unwrap() ); assert_eq!( br"whatever(?:/|$)".to_vec(), build_single_regex(b"rootglob", b"whatever", b"").unwrap() ); assert_eq!( br"[^/]*\.o".to_vec(), build_single_regex(b"rootglob", b"*.o", b"").unwrap() ); } }