// Copyright 2013-2016 The rust-url developers. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! URLs use special chacters to indicate the parts of the request. //! For example, a `?` question mark marks the end of a path and the start of a query string. //! In order for that character to exist inside a path, it needs to be encoded differently. //! //! Percent encoding replaces reserved characters with the `%` escape character //! followed by a byte value as two hexadecimal digits. //! For example, an ASCII space is replaced with `%20`. //! //! When encoding, the set of characters that can (and should, for readability) be left alone //! depends on the context. //! The `?` question mark mentioned above is not a separator when used literally //! inside of a query string, and therefore does not need to be encoded. //! The [`AsciiSet`] parameter of [`percent_encode`] and [`utf8_percent_encode`] //! lets callers configure this. //! //! This crate delibarately does not provide many different sets. //! Users should consider in what context the encoded string will be used, //! real relevant specifications, and define their own set. //! This is done by using the `add` method of an existing set. //! //! # Examples //! //! ``` //! use percent_encoding::{utf8_percent_encode, AsciiSet, CONTROLS}; //! //! /// https://url.spec.whatwg.org/#fragment-percent-encode-set //! const FRAGMENT: &AsciiSet = &CONTROLS.add(b' ').add(b'"').add(b'<').add(b'>').add(b'`'); //! //! assert_eq!(utf8_percent_encode("foo ", FRAGMENT).to_string(), "foo%20%3Cbar%3E"); //! ``` use std::borrow::Cow; use std::fmt; use std::slice; use std::str; /// Represents a set of characters or bytes in the ASCII range. /// /// This used in [`percent_encode`] and [`utf8_percent_encode`]. /// This is simlar to [percent-encode sets](https://url.spec.whatwg.org/#percent-encoded-bytes). /// /// Use the `add` method of an existing set to define a new set. For example: /// /// ``` /// use percent_encoding::{AsciiSet, CONTROLS}; /// /// /// https://url.spec.whatwg.org/#fragment-percent-encode-set /// const FRAGMENT: &AsciiSet = &CONTROLS.add(b' ').add(b'"').add(b'<').add(b'>').add(b'`'); /// ``` pub struct AsciiSet { mask: [Chunk; ASCII_RANGE_LEN / BITS_PER_CHUNK], } type Chunk = u32; const ASCII_RANGE_LEN: usize = 0x80; const BITS_PER_CHUNK: usize = 8 * std::mem::size_of::(); impl AsciiSet { /// Called with UTF-8 bytes rather than code points. /// Not used for non-ASCII bytes. const fn contains(&self, byte: u8) -> bool { let chunk = self.mask[byte as usize / BITS_PER_CHUNK]; let mask = 1 << (byte as usize % BITS_PER_CHUNK); (chunk & mask) != 0 } fn should_percent_encode(&self, byte: u8) -> bool { !byte.is_ascii() || self.contains(byte) } pub const fn add(&self, byte: u8) -> Self { let mut mask = self.mask; mask[byte as usize / BITS_PER_CHUNK] |= 1 << (byte as usize % BITS_PER_CHUNK); AsciiSet { mask } } pub const fn remove(&self, byte: u8) -> Self { let mut mask = self.mask; mask[byte as usize / BITS_PER_CHUNK] &= !(1 << (byte as usize % BITS_PER_CHUNK)); AsciiSet { mask } } } /// The set of 0x00 to 0x1F (C0 controls), and 0x7F (DEL). /// /// Note that this includes the newline and tab characters, but not the space 0x20. /// /// pub const CONTROLS: &AsciiSet = &AsciiSet { mask: [ !0_u32, // C0: 0x00 to 0x1F (32 bits set) 0, 0, 1 << (0x7F_u32 % 32), // DEL: 0x7F (one bit set) ], }; macro_rules! static_assert { ($( $bool: expr, )+) => { fn _static_assert() { $( let _ = std::mem::transmute::<[u8; $bool as usize], u8>; )+ } } } static_assert! { CONTROLS.contains(0x00), CONTROLS.contains(0x1F), !CONTROLS.contains(0x20), !CONTROLS.contains(0x7E), CONTROLS.contains(0x7F), } /// Everything that is not an ASCII letter or digit. /// /// This is probably more eager than necessary in any context. pub const NON_ALPHANUMERIC: &AsciiSet = &CONTROLS .add(b' ') .add(b'!') .add(b'"') .add(b'#') .add(b'$') .add(b'%') .add(b'&') .add(b'\'') .add(b'(') .add(b')') .add(b'*') .add(b'+') .add(b',') .add(b'-') .add(b'.') .add(b'/') .add(b':') .add(b';') .add(b'<') .add(b'=') .add(b'>') .add(b'?') .add(b'@') .add(b'[') .add(b'\\') .add(b']') .add(b'^') .add(b'_') .add(b'`') .add(b'{') .add(b'|') .add(b'}') .add(b'~'); /// Return the percent-encoding of the given byte. /// /// This is unconditional, unlike `percent_encode()` which has an `AsciiSet` parameter. /// /// # Examples /// /// ``` /// use percent_encoding::percent_encode_byte; /// /// assert_eq!("foo bar".bytes().map(percent_encode_byte).collect::(), /// "%66%6F%6F%20%62%61%72"); /// ``` pub fn percent_encode_byte(byte: u8) -> &'static str { let index = usize::from(byte) * 3; &"\ %00%01%02%03%04%05%06%07%08%09%0A%0B%0C%0D%0E%0F\ %10%11%12%13%14%15%16%17%18%19%1A%1B%1C%1D%1E%1F\ %20%21%22%23%24%25%26%27%28%29%2A%2B%2C%2D%2E%2F\ %30%31%32%33%34%35%36%37%38%39%3A%3B%3C%3D%3E%3F\ %40%41%42%43%44%45%46%47%48%49%4A%4B%4C%4D%4E%4F\ %50%51%52%53%54%55%56%57%58%59%5A%5B%5C%5D%5E%5F\ %60%61%62%63%64%65%66%67%68%69%6A%6B%6C%6D%6E%6F\ %70%71%72%73%74%75%76%77%78%79%7A%7B%7C%7D%7E%7F\ %80%81%82%83%84%85%86%87%88%89%8A%8B%8C%8D%8E%8F\ %90%91%92%93%94%95%96%97%98%99%9A%9B%9C%9D%9E%9F\ %A0%A1%A2%A3%A4%A5%A6%A7%A8%A9%AA%AB%AC%AD%AE%AF\ %B0%B1%B2%B3%B4%B5%B6%B7%B8%B9%BA%BB%BC%BD%BE%BF\ %C0%C1%C2%C3%C4%C5%C6%C7%C8%C9%CA%CB%CC%CD%CE%CF\ %D0%D1%D2%D3%D4%D5%D6%D7%D8%D9%DA%DB%DC%DD%DE%DF\ %E0%E1%E2%E3%E4%E5%E6%E7%E8%E9%EA%EB%EC%ED%EE%EF\ %F0%F1%F2%F3%F4%F5%F6%F7%F8%F9%FA%FB%FC%FD%FE%FF\ "[index..index + 3] } /// Percent-encode the given bytes with the given set. /// /// Non-ASCII bytes and bytes in `ascii_set` are encoded. /// /// The return type: /// /// * Implements `Iterator` and therefore has a `.collect::()` method, /// * Implements `Display` and therefore has a `.to_string()` method, /// * Implements `Into>` borrowing `input` when none of its bytes are encoded. /// /// # Examples /// /// ``` /// use percent_encoding::{percent_encode, NON_ALPHANUMERIC}; /// /// assert_eq!(percent_encode(b"foo bar?", NON_ALPHANUMERIC).to_string(), "foo%20bar%3F"); /// ``` #[inline] pub fn percent_encode<'a>(input: &'a [u8], ascii_set: &'static AsciiSet) -> PercentEncode<'a> { PercentEncode { bytes: input, ascii_set, } } /// Percent-encode the UTF-8 encoding of the given string. /// /// See [`percent_encode`] regarding the return type. /// /// # Examples /// /// ``` /// use percent_encoding::{utf8_percent_encode, NON_ALPHANUMERIC}; /// /// assert_eq!(utf8_percent_encode("foo bar?", NON_ALPHANUMERIC).to_string(), "foo%20bar%3F"); /// ``` #[inline] pub fn utf8_percent_encode<'a>(input: &'a str, ascii_set: &'static AsciiSet) -> PercentEncode<'a> { percent_encode(input.as_bytes(), ascii_set) } /// The return type of [`percent_encode`] and [`utf8_percent_encode`]. #[derive(Clone)] pub struct PercentEncode<'a> { bytes: &'a [u8], ascii_set: &'static AsciiSet, } impl<'a> Iterator for PercentEncode<'a> { type Item = &'a str; fn next(&mut self) -> Option<&'a str> { if let Some((&first_byte, remaining)) = self.bytes.split_first() { if self.ascii_set.should_percent_encode(first_byte) { self.bytes = remaining; Some(percent_encode_byte(first_byte)) } else { for (i, &byte) in remaining.iter().enumerate() { if self.ascii_set.should_percent_encode(byte) { // 1 for first_byte + i for previous iterations of this loop let (unchanged_slice, remaining) = self.bytes.split_at(1 + i); self.bytes = remaining; return Some(unsafe { str::from_utf8_unchecked(unchanged_slice) }); } } let unchanged_slice = self.bytes; self.bytes = &[][..]; Some(unsafe { str::from_utf8_unchecked(unchanged_slice) }) } } else { None } } fn size_hint(&self) -> (usize, Option) { if self.bytes.is_empty() { (0, Some(0)) } else { (1, Some(self.bytes.len())) } } } impl<'a> fmt::Display for PercentEncode<'a> { fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { for c in (*self).clone() { formatter.write_str(c)? } Ok(()) } } impl<'a> From> for Cow<'a, str> { fn from(mut iter: PercentEncode<'a>) -> Self { match iter.next() { None => "".into(), Some(first) => match iter.next() { None => first.into(), Some(second) => { let mut string = first.to_owned(); string.push_str(second); string.extend(iter); string.into() } }, } } } /// Percent-decode the given string. /// /// /// /// See [`percent_decode`] regarding the return type. #[inline] pub fn percent_decode_str(input: &str) -> PercentDecode { percent_decode(input.as_bytes()) } /// Percent-decode the given bytes. /// /// /// /// Any sequence of `%` followed by two hexadecimal digits is decoded. /// The return type: /// /// * Implements `Into>` borrowing `input` when it contains no percent-encoded sequence, /// * Implements `Iterator` and therefore has a `.collect::>()` method, /// * Has `decode_utf8()` and `decode_utf8_lossy()` methods. /// /// # Examples /// /// ``` /// use percent_encoding::percent_decode; /// /// assert_eq!(percent_decode(b"foo%20bar%3f").decode_utf8().unwrap(), "foo bar?"); /// ``` #[inline] pub fn percent_decode(input: &[u8]) -> PercentDecode { PercentDecode { bytes: input.iter(), } } /// The return type of [`percent_decode`]. #[derive(Clone, Debug)] pub struct PercentDecode<'a> { bytes: slice::Iter<'a, u8>, } fn after_percent_sign(iter: &mut slice::Iter) -> Option { let mut cloned_iter = iter.clone(); let h = char::from(*cloned_iter.next()?).to_digit(16)?; let l = char::from(*cloned_iter.next()?).to_digit(16)?; *iter = cloned_iter; Some(h as u8 * 0x10 + l as u8) } impl<'a> Iterator for PercentDecode<'a> { type Item = u8; fn next(&mut self) -> Option { self.bytes.next().map(|&byte| { if byte == b'%' { after_percent_sign(&mut self.bytes).unwrap_or(byte) } else { byte } }) } fn size_hint(&self) -> (usize, Option) { let bytes = self.bytes.len(); (bytes / 3, Some(bytes)) } } impl<'a> From> for Cow<'a, [u8]> { fn from(iter: PercentDecode<'a>) -> Self { match iter.if_any() { Some(vec) => Cow::Owned(vec), None => Cow::Borrowed(iter.bytes.as_slice()), } } } impl<'a> PercentDecode<'a> { /// If the percent-decoding is different from the input, return it as a new bytes vector. fn if_any(&self) -> Option> { let mut bytes_iter = self.bytes.clone(); while bytes_iter.any(|&b| b == b'%') { if let Some(decoded_byte) = after_percent_sign(&mut bytes_iter) { let initial_bytes = self.bytes.as_slice(); let unchanged_bytes_len = initial_bytes.len() - bytes_iter.len() - 3; let mut decoded = initial_bytes[..unchanged_bytes_len].to_owned(); decoded.push(decoded_byte); decoded.extend(PercentDecode { bytes: bytes_iter }); return Some(decoded); } } // Nothing to decode None } /// Decode the result of percent-decoding as UTF-8. /// /// This is return `Err` when the percent-decoded bytes are not well-formed in UTF-8. pub fn decode_utf8(self) -> Result, str::Utf8Error> { match self.clone().into() { Cow::Borrowed(bytes) => match str::from_utf8(bytes) { Ok(s) => Ok(s.into()), Err(e) => Err(e), }, Cow::Owned(bytes) => match String::from_utf8(bytes) { Ok(s) => Ok(s.into()), Err(e) => Err(e.utf8_error()), }, } } /// Decode the result of percent-decoding as UTF-8, lossily. /// /// Invalid UTF-8 percent-encoded byte sequences will be replaced � U+FFFD, /// the replacement character. pub fn decode_utf8_lossy(self) -> Cow<'a, str> { decode_utf8_lossy(self.clone().into()) } } fn decode_utf8_lossy(input: Cow<[u8]>) -> Cow { match input { Cow::Borrowed(bytes) => String::from_utf8_lossy(bytes), Cow::Owned(bytes) => { let raw_utf8: *const [u8]; match String::from_utf8_lossy(&bytes) { Cow::Borrowed(utf8) => raw_utf8 = utf8.as_bytes(), Cow::Owned(s) => return s.into(), } // from_utf8_lossy returned a borrow of `bytes` unchanged. debug_assert!(raw_utf8 == &*bytes as *const [u8]); // Reuse the existing `Vec` allocation. unsafe { String::from_utf8_unchecked(bytes) }.into() } } }