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use crate::{EarlyContext, EarlyLintPass, LintContext};
use rustc_ast as ast;
use rustc_data_structures::fx::FxHashMap;
use rustc_errors::fluent;
use rustc_span::symbol::Symbol;
declare_lint! {
/// The `non_ascii_idents` lint detects non-ASCII identifiers.
///
/// ### Example
///
/// ```rust,compile_fail
/// # #![allow(unused)]
/// #![deny(non_ascii_idents)]
/// fn main() {
/// let föö = 1;
/// }
/// ```
///
/// {{produces}}
///
/// ### Explanation
///
/// This lint allows projects that wish to retain the limit of only using
/// ASCII characters to switch this lint to "forbid" (for example to ease
/// collaboration or for security reasons).
/// See [RFC 2457] for more details.
///
/// [RFC 2457]: https://github.com/rust-lang/rfcs/blob/master/text/2457-non-ascii-idents.md
pub NON_ASCII_IDENTS,
Allow,
"detects non-ASCII identifiers",
crate_level_only
}
declare_lint! {
/// The `uncommon_codepoints` lint detects uncommon Unicode codepoints in
/// identifiers.
///
/// ### Example
///
/// ```rust
/// # #![allow(unused)]
/// const µ: f64 = 0.000001;
/// ```
///
/// {{produces}}
///
/// ### Explanation
///
/// This lint warns about using characters which are not commonly used, and may
/// cause visual confusion.
///
/// This lint is triggered by identifiers that contain a codepoint that is
/// not part of the set of "Allowed" codepoints as described by [Unicode®
/// Technical Standard #39 Unicode Security Mechanisms Section 3.1 General
/// Security Profile for Identifiers][TR39Allowed].
///
/// Note that the set of uncommon codepoints may change over time. Beware
/// that if you "forbid" this lint that existing code may fail in the
/// future.
///
/// [TR39Allowed]: https://www.unicode.org/reports/tr39/#General_Security_Profile
pub UNCOMMON_CODEPOINTS,
Warn,
"detects uncommon Unicode codepoints in identifiers",
crate_level_only
}
declare_lint! {
/// The `confusable_idents` lint detects visually confusable pairs between
/// identifiers.
///
/// ### Example
///
/// ```rust
/// // Latin Capital Letter E With Caron
/// pub const Ě: i32 = 1;
/// // Latin Capital Letter E With Breve
/// pub const Ĕ: i32 = 2;
/// ```
///
/// {{produces}}
///
/// ### Explanation
///
/// This lint warns when different identifiers may appear visually similar,
/// which can cause confusion.
///
/// The confusable detection algorithm is based on [Unicode® Technical
/// Standard #39 Unicode Security Mechanisms Section 4 Confusable
/// Detection][TR39Confusable]. For every distinct identifier X execute
/// the function `skeleton(X)`. If there exist two distinct identifiers X
/// and Y in the same crate where `skeleton(X) = skeleton(Y)` report it.
/// The compiler uses the same mechanism to check if an identifier is too
/// similar to a keyword.
///
/// Note that the set of confusable characters may change over time.
/// Beware that if you "forbid" this lint that existing code may fail in
/// the future.
///
/// [TR39Confusable]: https://www.unicode.org/reports/tr39/#Confusable_Detection
pub CONFUSABLE_IDENTS,
Warn,
"detects visually confusable pairs between identifiers",
crate_level_only
}
declare_lint! {
/// The `mixed_script_confusables` lint detects visually confusable
/// characters in identifiers between different [scripts].
///
/// [scripts]: https://en.wikipedia.org/wiki/Script_(Unicode)
///
/// ### Example
///
/// ```rust
/// // The Japanese katakana character エ can be confused with the Han character 工.
/// const エ: &'static str = "アイウ";
/// ```
///
/// {{produces}}
///
/// ### Explanation
///
/// This lint warns when characters between different scripts may appear
/// visually similar, which can cause confusion.
///
/// If the crate contains other identifiers in the same script that have
/// non-confusable characters, then this lint will *not* be issued. For
/// example, if the example given above has another identifier with
/// katakana characters (such as `let カタカナ = 123;`), then this indicates
/// that you are intentionally using katakana, and it will not warn about
/// it.
///
/// Note that the set of confusable characters may change over time.
/// Beware that if you "forbid" this lint that existing code may fail in
/// the future.
pub MIXED_SCRIPT_CONFUSABLES,
Warn,
"detects Unicode scripts whose mixed script confusables codepoints are solely used",
crate_level_only
}
declare_lint_pass!(NonAsciiIdents => [NON_ASCII_IDENTS, UNCOMMON_CODEPOINTS, CONFUSABLE_IDENTS, MIXED_SCRIPT_CONFUSABLES]);
impl EarlyLintPass for NonAsciiIdents {
fn check_crate(&mut self, cx: &EarlyContext<'_>, _: &ast::Crate) {
use rustc_session::lint::Level;
use rustc_span::Span;
use std::collections::BTreeMap;
use unicode_security::GeneralSecurityProfile;
let check_non_ascii_idents = cx.builder.lint_level(NON_ASCII_IDENTS).0 != Level::Allow;
let check_uncommon_codepoints =
cx.builder.lint_level(UNCOMMON_CODEPOINTS).0 != Level::Allow;
let check_confusable_idents = cx.builder.lint_level(CONFUSABLE_IDENTS).0 != Level::Allow;
let check_mixed_script_confusables =
cx.builder.lint_level(MIXED_SCRIPT_CONFUSABLES).0 != Level::Allow;
if !check_non_ascii_idents
&& !check_uncommon_codepoints
&& !check_confusable_idents
&& !check_mixed_script_confusables
{
return;
}
let mut has_non_ascii_idents = false;
let symbols = cx.sess().parse_sess.symbol_gallery.symbols.lock();
// Sort by `Span` so that error messages make sense with respect to the
// order of identifier locations in the code.
let mut symbols: Vec<_> = symbols.iter().collect();
symbols.sort_by_key(|k| k.1);
for (symbol, &sp) in symbols.iter() {
let symbol_str = symbol.as_str();
if symbol_str.is_ascii() {
continue;
}
has_non_ascii_idents = true;
cx.struct_span_lint(
NON_ASCII_IDENTS,
sp,
fluent::lint_identifier_non_ascii_char,
|lint| lint,
);
if check_uncommon_codepoints
&& !symbol_str.chars().all(GeneralSecurityProfile::identifier_allowed)
{
cx.struct_span_lint(
UNCOMMON_CODEPOINTS,
sp,
fluent::lint_identifier_uncommon_codepoints,
|lint| lint,
)
}
}
if has_non_ascii_idents && check_confusable_idents {
let mut skeleton_map: FxHashMap<Symbol, (Symbol, Span, bool)> =
FxHashMap::with_capacity_and_hasher(symbols.len(), Default::default());
let mut skeleton_buf = String::new();
for (&symbol, &sp) in symbols.iter() {
use unicode_security::confusable_detection::skeleton;
let symbol_str = symbol.as_str();
let is_ascii = symbol_str.is_ascii();
// Get the skeleton as a `Symbol`.
skeleton_buf.clear();
skeleton_buf.extend(skeleton(&symbol_str));
let skeleton_sym = if *symbol_str == *skeleton_buf {
symbol
} else {
Symbol::intern(&skeleton_buf)
};
skeleton_map
.entry(skeleton_sym)
.and_modify(|(existing_symbol, existing_span, existing_is_ascii)| {
if !*existing_is_ascii || !is_ascii {
cx.struct_span_lint(
CONFUSABLE_IDENTS,
sp,
fluent::lint_confusable_identifier_pair,
|lint| {
lint.set_arg("existing_sym", *existing_symbol)
.set_arg("sym", symbol)
.span_label(*existing_span, fluent::label)
},
);
}
if *existing_is_ascii && !is_ascii {
*existing_symbol = symbol;
*existing_span = sp;
*existing_is_ascii = is_ascii;
}
})
.or_insert((symbol, sp, is_ascii));
}
}
if has_non_ascii_idents && check_mixed_script_confusables {
use unicode_security::is_potential_mixed_script_confusable_char;
use unicode_security::mixed_script::AugmentedScriptSet;
#[derive(Clone)]
enum ScriptSetUsage {
Suspicious(Vec<char>, Span),
Verified,
}
let mut script_states: FxHashMap<AugmentedScriptSet, ScriptSetUsage> =
FxHashMap::default();
let latin_augmented_script_set = AugmentedScriptSet::for_char('A');
script_states.insert(latin_augmented_script_set, ScriptSetUsage::Verified);
let mut has_suspicous = false;
for (symbol, &sp) in symbols.iter() {
let symbol_str = symbol.as_str();
for ch in symbol_str.chars() {
if ch.is_ascii() {
// all ascii characters are covered by exception.
continue;
}
if !GeneralSecurityProfile::identifier_allowed(ch) {
// this character is covered by `uncommon_codepoints` lint.
continue;
}
let augmented_script_set = AugmentedScriptSet::for_char(ch);
script_states
.entry(augmented_script_set)
.and_modify(|existing_state| {
if let ScriptSetUsage::Suspicious(ch_list, _) = existing_state {
if is_potential_mixed_script_confusable_char(ch) {
ch_list.push(ch);
} else {
*existing_state = ScriptSetUsage::Verified;
}
}
})
.or_insert_with(|| {
if !is_potential_mixed_script_confusable_char(ch) {
ScriptSetUsage::Verified
} else {
has_suspicous = true;
ScriptSetUsage::Suspicious(vec![ch], sp)
}
});
}
}
if has_suspicous {
let verified_augmented_script_sets = script_states
.iter()
.flat_map(|(k, v)| match v {
ScriptSetUsage::Verified => Some(*k),
_ => None,
})
.collect::<Vec<_>>();
// we're sorting the output here.
let mut lint_reports: BTreeMap<(Span, Vec<char>), AugmentedScriptSet> =
BTreeMap::new();
'outerloop: for (augment_script_set, usage) in script_states {
let ScriptSetUsage::Suspicious(mut ch_list, sp) = usage else { continue };
if augment_script_set.is_all() {
continue;
}
for existing in verified_augmented_script_sets.iter() {
if existing.is_all() {
continue;
}
let mut intersect = *existing;
intersect.intersect_with(augment_script_set);
if !intersect.is_empty() && !intersect.is_all() {
continue 'outerloop;
}
}
// We sort primitive chars here and can use unstable sort
ch_list.sort_unstable();
ch_list.dedup();
lint_reports.insert((sp, ch_list), augment_script_set);
}
for ((sp, ch_list), script_set) in lint_reports {
cx.struct_span_lint(
MIXED_SCRIPT_CONFUSABLES,
sp,
fluent::lint_mixed_script_confusables,
|lint| {
let mut includes = String::new();
for (idx, ch) in ch_list.into_iter().enumerate() {
if idx != 0 {
includes += ", ";
}
let char_info = format!("'{}' (U+{:04X})", ch, ch as u32);
includes += &char_info;
}
lint.set_arg("set", script_set.to_string())
.set_arg("includes", includes)
.note(fluent::includes_note)
.note(fluent::note)
},
);
}
}
}
}
}