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/*
* This file is licensed under the Affero General Public License (AGPL) version 3.
*
* Copyright (C) 2023 New Vector, Ltd
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, either version 3 of the
* License, or (at your option) any later version.
*
* See the GNU Affero General Public License for more details:
* <https://www.gnu.org/licenses/agpl-3.0.html>.
*
* Originally licensed under the Apache License, Version 2.0:
* <http://www.apache.org/licenses/LICENSE-2.0>.
*
* [This file includes modifications made by New Vector Limited]
*
*/
use anyhow::bail;
use anyhow::Context;
use anyhow::Error;
use lazy_static::lazy_static;
use regex;
use regex::Regex;
use regex::RegexBuilder;
lazy_static! {
/// Matches runs of non-wildcard characters followed by wildcard characters.
static ref WILDCARD_RUN: Regex = Regex::new(r"([^\?\*]*)([\?\*]*)").expect("valid regex");
}
/// Extract the localpart from a Matrix style ID
pub(crate) fn get_localpart_from_id(id: &str) -> Result<&str, Error> {
let (localpart, _) = id
.split_once(':')
.with_context(|| format!("ID does not contain colon: {id}"))?;
// We need to strip off the first character, which is the ID type.
if localpart.is_empty() {
bail!("Invalid ID {id}");
}
Ok(&localpart[1..])
}
/// Used by `glob_to_regex` to specify what to match the regex against.
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum GlobMatchType {
/// The generated regex will match against the entire input.
Whole,
/// The generated regex will match against words.
Word,
}
/// Convert a "glob" style expression to a regex, anchoring either to the entire
/// input or to individual words.
pub fn glob_to_regex(glob: &str, match_type: GlobMatchType) -> Result<Regex, Error> {
let mut chunks = Vec::new();
// Patterns with wildcards must be simplified to avoid performance cliffs
// - The glob `?**?**?` is equivalent to the glob `???*`
// - The glob `???*` is equivalent to the regex `.{3,}`
for captures in WILDCARD_RUN.captures_iter(glob) {
if let Some(chunk) = captures.get(1) {
chunks.push(regex::escape(chunk.as_str()));
}
if let Some(wildcards) = captures.get(2) {
if wildcards.as_str() == "" {
continue;
}
let question_marks = wildcards.as_str().chars().filter(|c| *c == '?').count();
if wildcards.as_str().contains('*') {
chunks.push(format!(".{{{question_marks},}}"));
} else {
chunks.push(format!(".{{{question_marks}}}"));
}
}
}
let joined = chunks.join("");
let regex_str = match match_type {
GlobMatchType::Whole => format!(r"\A{joined}\z"),
// `^|\W` and `\W|$` handle the case where `pattern` starts or ends with a non-word
// character.
GlobMatchType::Word => format!(r"(?:^|\b|\W){joined}(?:\b|\W|$)"),
};
Ok(RegexBuilder::new(®ex_str)
.case_insensitive(true)
.build()?)
}
/// Compiles the glob into a `Matcher`.
pub fn get_glob_matcher(glob: &str, match_type: GlobMatchType) -> Result<Matcher, Error> {
// There are a number of shortcuts we can make if the glob doesn't contain a
// wild card.
let matcher = if glob.contains(['*', '?']) {
let regex = glob_to_regex(glob, match_type)?;
Matcher::Regex(regex)
} else if match_type == GlobMatchType::Whole {
// If there aren't any wildcards and we're matching the whole thing,
// then we simply can do a case-insensitive string match.
Matcher::Whole(glob.to_lowercase())
} else {
// Otherwise, if we're matching against words then can first check
// if the haystack contains the glob at all.
Matcher::Word {
word: glob.to_lowercase(),
regex: None,
}
};
Ok(matcher)
}
/// Matches against a glob
pub enum Matcher {
/// Plain regex matching.
Regex(Regex),
/// Case-insensitive equality.
Whole(String),
/// Word matching. `regex` is a cache of calling [`glob_to_regex`] on word.
Word { word: String, regex: Option<Regex> },
}
impl Matcher {
/// Checks if the glob matches the given haystack.
pub fn is_match(&mut self, haystack: &str) -> Result<bool, Error> {
// We want to to do case-insensitive matching, so we convert to
// lowercase first.
let haystack = haystack.to_lowercase();
match self {
Matcher::Regex(regex) => Ok(regex.is_match(&haystack)),
Matcher::Whole(whole) => Ok(whole == &haystack),
Matcher::Word { word, regex } => {
// If we're looking for a literal word, then we first check if
// the haystack contains the word as a substring.
if !haystack.contains(&*word) {
return Ok(false);
}
// If it does contain the word as a substring, then we need to
// check if it is an actual word by testing it against the regex.
let regex = if let Some(regex) = regex {
regex
} else {
let compiled_regex = glob_to_regex(word, GlobMatchType::Word)?;
regex.insert(compiled_regex)
};
Ok(regex.is_match(&haystack))
}
}
}
}
#[test]
fn test_get_domain_from_id() {
get_localpart_from_id("").unwrap_err();
get_localpart_from_id(":").unwrap_err();
get_localpart_from_id(":asd").unwrap_err();
get_localpart_from_id("::as::asad").unwrap_err();
assert_eq!(get_localpart_from_id("@test:foo").unwrap(), "test");
assert_eq!(get_localpart_from_id("@:").unwrap(), "");
assert_eq!(get_localpart_from_id("@test:foo:907").unwrap(), "test");
}
#[test]
fn tset_glob() -> Result<(), Error> {
assert_eq!(
glob_to_regex("simple", GlobMatchType::Whole)?.as_str(),
r"\Asimple\z"
);
assert_eq!(
glob_to_regex("simple*", GlobMatchType::Whole)?.as_str(),
r"\Asimple.{0,}\z"
);
assert_eq!(
glob_to_regex("simple?", GlobMatchType::Whole)?.as_str(),
r"\Asimple.{1}\z"
);
assert_eq!(
glob_to_regex("simple?*?*", GlobMatchType::Whole)?.as_str(),
r"\Asimple.{2,}\z"
);
assert_eq!(
glob_to_regex("simple???", GlobMatchType::Whole)?.as_str(),
r"\Asimple.{3}\z"
);
assert_eq!(
glob_to_regex("escape.", GlobMatchType::Whole)?.as_str(),
r"\Aescape\.\z"
);
assert!(glob_to_regex("simple", GlobMatchType::Whole)?.is_match("simple"));
assert!(!glob_to_regex("simple", GlobMatchType::Whole)?.is_match("simples"));
assert!(glob_to_regex("simple*", GlobMatchType::Whole)?.is_match("simples"));
assert!(glob_to_regex("simple?", GlobMatchType::Whole)?.is_match("simples"));
assert!(glob_to_regex("simple*", GlobMatchType::Whole)?.is_match("simple"));
assert!(glob_to_regex("simple", GlobMatchType::Word)?.is_match("some simple."));
assert!(glob_to_regex("simple", GlobMatchType::Word)?.is_match("simple"));
assert!(!glob_to_regex("simple", GlobMatchType::Word)?.is_match("simples"));
assert!(glob_to_regex("@user:foo", GlobMatchType::Word)?.is_match("Some @user:foo test"));
assert!(glob_to_regex("@user:foo", GlobMatchType::Word)?.is_match("@user:foo"));
Ok(())
}
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