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Add validator for byte

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This commit is contained in:
Adolfo Ochagavía 2018-11-11 20:27:00 +01:00
parent a4f7d7a7cd
commit c258b4fdb0
8 changed files with 420 additions and 94 deletions
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202
crates/ra_syntax/src/validation/byte.rs Normal file
View file

@ -0,0 +1,202 @@
//! Validation of byte literals
use crate::{
ast::{self, AstNode},
string_lexing::{self, CharComponentKind},
TextRange,
validation::char,
yellow::{
SyntaxError,
SyntaxErrorKind::*,
},
};
pub(super) fn validate_byte_node(node: ast::Byte, errors: &mut Vec<SyntaxError>) {
let literal_text = node.text();
let literal_range = node.syntax().range();
let mut components = string_lexing::parse_byte_literal(literal_text);
let mut len = 0;
for component in &mut components {
len += 1;
let text = &literal_text[component.range];
let range = component.range + literal_range.start();
use self::CharComponentKind::*;
match component.kind {
AsciiEscape => validate_byte_escape(text, range, errors),
AsciiCodeEscape => validate_byte_code_escape(text, range, errors),
UnicodeEscape => errors.push(SyntaxError::new(UnicodeEscapeForbidden, range)),
CodePoint => {
let c = text.chars().next().expect("Code points should be one character long");
// These bytes must always be escaped
if c == '\t' || c == '\r' || c == '\n' {
errors.push(SyntaxError::new(UnescapedByte, range));
}
// Only ASCII bytes are allowed
if c > 0x7F as char {
errors.push(SyntaxError::new(ByteOutOfRange, range));
}
}
}
}
if !components.has_closing_quote {
errors.push(SyntaxError::new(UnclosedByte, literal_range));
}
if len == 0 {
errors.push(SyntaxError::new(EmptyByte, literal_range));
}
if len > 1 {
errors.push(SyntaxError::new(OverlongByte, literal_range));
}
}
fn validate_byte_escape(text: &str, range: TextRange, errors: &mut Vec<SyntaxError>) {
if text.len() == 1 {
// Escape sequence consists only of leading `\`
errors.push(SyntaxError::new(EmptyByteEscape, range));
} else {
let escape_code = text.chars().skip(1).next().unwrap();
if !char::is_ascii_escape(escape_code) {
errors.push(SyntaxError::new(InvalidByteEscape, range));
}
}
}
fn validate_byte_code_escape(text: &str, range: TextRange, errors: &mut Vec<SyntaxError>) {
// A ByteCodeEscape has 4 chars, example: `\xDD`
if text.len() < 4 {
errors.push(SyntaxError::new(TooShortByteCodeEscape, range));
} else {
assert!(
text.chars().count() == 4,
"ByteCodeEscape cannot be longer than 4 chars"
);
if u8::from_str_radix(&text[2..], 16).is_err() {
errors.push(SyntaxError::new(MalformedByteCodeEscape, range));
}
}
}
#[cfg(test)]
mod test {
use crate::SourceFileNode;
fn build_file(literal: &str) -> SourceFileNode {
let src = format!("const C: u8 = b'{}';", literal);
SourceFileNode::parse(&src)
}
fn assert_valid_byte(literal: &str) {
let file = build_file(literal);
assert!(
file.errors().len() == 0,
"Errors for literal '{}': {:?}",
literal,
file.errors()
);
}
fn assert_invalid_byte(literal: &str) {
let file = build_file(literal);
assert!(file.errors().len() > 0);
}
#[test]
fn test_ansi_codepoints() {
for byte in 0..128 {
match byte {
b'\n' | b'\r' | b'\t' => assert_invalid_byte(&(byte as char).to_string()),
b'\'' | b'\\' => { /* Ignore character close and backslash */ }
_ => assert_valid_byte(&(byte as char).to_string()),
}
}
for byte in 128..=255u8 {
assert_invalid_byte(&(byte as char).to_string());
}
}
#[test]
fn test_unicode_codepoints() {
let invalid = ["Ƒ", "", "", ""];
for c in &invalid {
assert_invalid_byte(c);
}
}
#[test]
fn test_unicode_multiple_codepoints() {
let invalid = ["नी", "👨‍👨‍"];
for c in &invalid {
assert_invalid_byte(c);
}
}
#[test]
fn test_valid_byte_escape() {
let valid = [
r"\'", "\"", "\\\\", "\\\"", r"\n", r"\r", r"\t", r"\0", "a", "b",
];
for c in &valid {
assert_valid_byte(c);
}
}
#[test]
fn test_invalid_byte_escape() {
let invalid = [r"\a", r"\?", r"\"];
for c in &invalid {
assert_invalid_byte(c);
}
}
#[test]
fn test_valid_byte_code_escape() {
let valid = [r"\x00", r"\x7F", r"\x55", r"\xF0"];
for c in &valid {
assert_valid_byte(c);
}
}
#[test]
fn test_invalid_byte_code_escape() {
let invalid = [r"\x", r"\x7"];
for c in &invalid {
assert_invalid_byte(c);
}
}
#[test]
fn test_invalid_unicode_escape() {
let well_formed = [
r"\u{FF}",
r"\u{0}",
r"\u{F}",
r"\u{10FFFF}",
r"\u{1_0__FF___FF_____}",
];
for c in &well_formed {
assert_invalid_byte(c);
}
let invalid = [
r"\u",
r"\u{}",
r"\u{",
r"\u{FF",
r"\u{FFFFFF}",
r"\u{_F}",
r"\u{00FFFFF}",
r"\u{110000}",
];
for c in &invalid {
assert_invalid_byte(c);
}
}
}

196
crates/ra_syntax/src/validation/char.rs
View file

@ -1,3 +1,5 @@
//! Validation of char literals
use std::u32;
use arrayvec::ArrayString;
@ -12,7 +14,7 @@ use crate::{
},
};
pub(crate) fn validate_char_node(node: ast::Char, errors: &mut Vec<SyntaxError>) {
pub(super) fn validate_char_node(node: ast::Char, errors: &mut Vec<SyntaxError>) {
let literal_text = node.text();
let literal_range = node.syntax().range();
let mut components = string_lexing::parse_char_literal(literal_text);
@ -37,7 +39,7 @@ pub(crate) fn validate_char_node(node: ast::Char, errors: &mut Vec<SyntaxError>)
}
}
pub(crate) fn validate_char_component(
pub(super) fn validate_char_component(
text: &str,
kind: CharComponentKind,
range: TextRange,
@ -46,112 +48,118 @@ pub(crate) fn validate_char_component(
// Validate escapes
use self::CharComponentKind::*;
match kind {
AsciiEscape => {
if text.len() == 1 {
// Escape sequence consists only of leading `\`
errors.push(SyntaxError::new(EmptyAsciiEscape, range));
} else {
let escape_code = text.chars().skip(1).next().unwrap();
if !is_ascii_escape(escape_code) {
errors.push(SyntaxError::new(InvalidAsciiEscape, range));
}
}
}
AsciiCodeEscape => {
// An AsciiCodeEscape has 4 chars, example: `\xDD`
if text.len() < 4 {
errors.push(SyntaxError::new(TooShortAsciiCodeEscape, range));
} else {
assert!(
text.chars().count() == 4,
"AsciiCodeEscape cannot be longer than 4 chars"
);
match u8::from_str_radix(&text[2..], 16) {
Ok(code) if code < 128 => { /* Escape code is valid */ }
Ok(_) => errors.push(SyntaxError::new(AsciiCodeEscapeOutOfRange, range)),
Err(_) => errors.push(SyntaxError::new(MalformedAsciiCodeEscape, range)),
}
}
}
UnicodeEscape => {
assert!(&text[..2] == "\\u", "UnicodeEscape always starts with \\u");
if text.len() == 2 {
// No starting `{`
errors.push(SyntaxError::new(MalformedUnicodeEscape, range));
return;
}
if text.len() == 3 {
// Only starting `{`
errors.push(SyntaxError::new(UnclosedUnicodeEscape, range));
return;
}
let mut code = ArrayString::<[_; 6]>::new();
let mut closed = false;
for c in text[3..].chars() {
assert!(!closed, "no characters after escape is closed");
if c.is_digit(16) {
if code.len() == 6 {
errors.push(SyntaxError::new(OverlongUnicodeEscape, range));
return;
}
code.push(c);
} else if c == '_' {
// Reject leading _
if code.len() == 0 {
errors.push(SyntaxError::new(MalformedUnicodeEscape, range));
return;
}
} else if c == '}' {
closed = true;
} else {
errors.push(SyntaxError::new(MalformedUnicodeEscape, range));
return;
}
}
if !closed {
errors.push(SyntaxError::new(UnclosedUnicodeEscape, range))
}
if code.len() == 0 {
errors.push(SyntaxError::new(EmptyUnicodeEcape, range));
return;
}
match u32::from_str_radix(&code, 16) {
Ok(code_u32) if code_u32 > 0x10FFFF => {
errors.push(SyntaxError::new(UnicodeEscapeOutOfRange, range));
}
Ok(_) => {
// Valid escape code
}
Err(_) => {
errors.push(SyntaxError::new(MalformedUnicodeEscape, range));
}
}
}
AsciiEscape => validate_ascii_escape(text, range, errors),
AsciiCodeEscape => validate_ascii_code_escape(text, range, errors),
UnicodeEscape => validate_unicode_escape(text, range, errors),
CodePoint => {
// These code points must always be escaped
if text == "\t" || text == "\r" {
if text == "\t" || text == "\r" || text == "\n" {
errors.push(SyntaxError::new(UnescapedCodepoint, range));
}
}
}
}
fn is_ascii_escape(code: char) -> bool {
fn validate_ascii_escape(text: &str, range: TextRange, errors: &mut Vec<SyntaxError>) {
if text.len() == 1 {
// Escape sequence consists only of leading `\`
errors.push(SyntaxError::new(EmptyAsciiEscape, range));
} else {
let escape_code = text.chars().skip(1).next().unwrap();
if !is_ascii_escape(escape_code) {
errors.push(SyntaxError::new(InvalidAsciiEscape, range));
}
}
}
pub(super) fn is_ascii_escape(code: char) -> bool {
match code {
'\\' | '\'' | '"' | 'n' | 'r' | 't' | '0' => true,
_ => false,
}
}
fn validate_ascii_code_escape(text: &str, range: TextRange, errors: &mut Vec<SyntaxError>) {
// An AsciiCodeEscape has 4 chars, example: `\xDD`
if text.len() < 4 {
errors.push(SyntaxError::new(TooShortAsciiCodeEscape, range));
} else {
assert!(
text.chars().count() == 4,
"AsciiCodeEscape cannot be longer than 4 chars"
);
match u8::from_str_radix(&text[2..], 16) {
Ok(code) if code < 128 => { /* Escape code is valid */ }
Ok(_) => errors.push(SyntaxError::new(AsciiCodeEscapeOutOfRange, range)),
Err(_) => errors.push(SyntaxError::new(MalformedAsciiCodeEscape, range)),
}
}
}
fn validate_unicode_escape(text: &str, range: TextRange, errors: &mut Vec<SyntaxError>) {
assert!(&text[..2] == "\\u", "UnicodeEscape always starts with \\u");
if text.len() == 2 {
// No starting `{`
errors.push(SyntaxError::new(MalformedUnicodeEscape, range));
return;
}
if text.len() == 3 {
// Only starting `{`
errors.push(SyntaxError::new(UnclosedUnicodeEscape, range));
return;
}
let mut code = ArrayString::<[_; 6]>::new();
let mut closed = false;
for c in text[3..].chars() {
assert!(!closed, "no characters after escape is closed");
if c.is_digit(16) {
if code.len() == 6 {
errors.push(SyntaxError::new(OverlongUnicodeEscape, range));
return;
}
code.push(c);
} else if c == '_' {
// Reject leading _
if code.len() == 0 {
errors.push(SyntaxError::new(MalformedUnicodeEscape, range));
return;
}
} else if c == '}' {
closed = true;
} else {
errors.push(SyntaxError::new(MalformedUnicodeEscape, range));
return;
}
}
if !closed {
errors.push(SyntaxError::new(UnclosedUnicodeEscape, range))
}
if code.len() == 0 {
errors.push(SyntaxError::new(EmptyUnicodeEcape, range));
return;
}
match u32::from_str_radix(&code, 16) {
Ok(code_u32) if code_u32 > 0x10FFFF => {
errors.push(SyntaxError::new(UnicodeEscapeOutOfRange, range));
}
Ok(_) => {
// Valid escape code
}
Err(_) => {
errors.push(SyntaxError::new(MalformedUnicodeEscape, range));
}
}
}
#[cfg(test)]
mod test {
use crate::SourceFileNode;

2
crates/ra_syntax/src/validation/mod.rs
View file

@ -5,6 +5,7 @@ use crate::{
yellow::SyntaxError,
};
mod byte;
mod char;
mod string;
@ -12,6 +13,7 @@ pub(crate) fn validate(file: &SourceFileNode) -> Vec<SyntaxError> {
let mut errors = Vec::new();
for node in file.syntax().descendants() {
let _ = visitor_ctx(&mut errors)
.visit::<ast::Byte, _>(self::byte::validate_byte_node)
.visit::<ast::Char, _>(self::char::validate_char_node)
.visit::<ast::String, _>(self::string::validate_string_node)
.accept(node);