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// Copyright 2013-2014 The Rust Project Developers.
// Copyright 2018 The Uuid Project Developers.
//
// See the COPYRIGHT file at the top-level directory of this distribution.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
//! [`Uuid`] parsing constructs and utilities.
//!
//! [`Uuid`]: ../struct.Uuid.html
use crate::{
error::*,
std::{convert::TryFrom, str},
Uuid,
};
impl str::FromStr for Uuid {
type Err = Error;
fn from_str(uuid_str: &str) -> Result<Self, Self::Err> {
Uuid::parse_str(uuid_str)
}
}
impl TryFrom<&'_ str> for Uuid {
type Error = Error;
fn try_from(uuid_str: &'_ str) -> Result<Self, Self::Error> {
Uuid::parse_str(uuid_str)
}
}
impl Uuid {
/// Parses a `Uuid` from a string of hexadecimal digits with optional
/// hyphens.
///
/// Any of the formats generated by this module (simple, hyphenated, urn,
/// Microsoft GUID) are supported by this parsing function.
///
/// Prefer [`try_parse`] unless you need detailed user-facing diagnostics.
/// This method will be eventually deprecated in favor of `try_parse`.
///
/// # Examples
///
/// Parse a hyphenated UUID:
///
/// ```
/// # use uuid::{Uuid, Version, Variant};
/// # fn main() -> Result<(), uuid::Error> {
/// let uuid = Uuid::parse_str("550e8400-e29b-41d4-a716-446655440000")?;
///
/// assert_eq!(Some(Version::Random), uuid.get_version());
/// assert_eq!(Variant::RFC4122, uuid.get_variant());
/// # Ok(())
/// # }
/// ```
///
/// [`try_parse`]: #method.try_parse
pub fn parse_str(input: &str) -> Result<Uuid, Error> {
try_parse(input.as_bytes())
.map(Uuid::from_bytes)
.map_err(InvalidUuid::into_err)
}
/// Parses a `Uuid` from a string of hexadecimal digits with optional
/// hyphens.
///
/// This function is similar to [`parse_str`], in fact `parse_str` shares
/// the same underlying parser. The difference is that if `try_parse`
/// fails, it won't generate very useful error messages. The `parse_str`
/// function will eventually be deprecated in favor of `try_parse`.
///
/// To parse a UUID from a byte stream instead of a UTF8 string, see
/// [`try_parse_ascii`].
///
/// # Examples
///
/// Parse a hyphenated UUID:
///
/// ```
/// # use uuid::{Uuid, Version, Variant};
/// # fn main() -> Result<(), uuid::Error> {
/// let uuid = Uuid::try_parse("550e8400-e29b-41d4-a716-446655440000")?;
///
/// assert_eq!(Some(Version::Random), uuid.get_version());
/// assert_eq!(Variant::RFC4122, uuid.get_variant());
/// # Ok(())
/// # }
/// ```
///
/// [`parse_str`]: #method.parse_str
/// [`try_parse_ascii`]: #method.try_parse_ascii
pub const fn try_parse(input: &str) -> Result<Uuid, Error> {
Self::try_parse_ascii(input.as_bytes())
}
/// Parses a `Uuid` from a string of hexadecimal digits with optional
/// hyphens.
///
/// The input is expected to be a string of ASCII characters. This method
/// can be more convenient than [`try_parse`] if the UUID is being
/// parsed from a byte stream instead of from a UTF8 string.
///
/// # Examples
///
/// Parse a hyphenated UUID:
///
/// ```
/// # use uuid::{Uuid, Version, Variant};
/// # fn main() -> Result<(), uuid::Error> {
/// let uuid = Uuid::try_parse_ascii(b"550e8400-e29b-41d4-a716-446655440000")?;
///
/// assert_eq!(Some(Version::Random), uuid.get_version());
/// assert_eq!(Variant::RFC4122, uuid.get_variant());
/// # Ok(())
/// # }
/// ```
///
/// [`try_parse`]: #method.try_parse
pub const fn try_parse_ascii(input: &[u8]) -> Result<Uuid, Error> {
match try_parse(input) {
Ok(bytes) => Ok(Uuid::from_bytes(bytes)),
// If parsing fails then we don't know exactly what went wrong
// In this case, we just return a generic error
Err(_) => Err(Error(ErrorKind::Other)),
}
}
}
const fn try_parse(input: &[u8]) -> Result<[u8; 16], InvalidUuid> {
match (input.len(), input) {
// Inputs of 32 bytes must be a non-hyphenated UUID
(32, s) => parse_simple(s),
// Hyphenated UUIDs may be wrapped in various ways:
// - `{UUID}` for braced UUIDs
// - `urn:uuid:UUID` for URNs
// - `UUID` for a regular hyphenated UUID
(36, s)
| (38, [b'{', s @ .., b'}'])
| (45, [b'u', b'r', b'n', b':', b'u', b'u', b'i', b'd', b':', s @ ..]) => {
parse_hyphenated(s)
}
// Any other shaped input is immediately invalid
_ => Err(InvalidUuid(input)),
}
}
#[inline]
pub(crate) const fn parse_braced(input: &[u8]) -> Result<[u8; 16], InvalidUuid> {
if let (38, [b'{', s @ .., b'}']) = (input.len(), input) {
parse_hyphenated(s)
} else {
Err(InvalidUuid(input))
}
}
#[inline]
pub(crate) const fn parse_urn(input: &[u8]) -> Result<[u8; 16], InvalidUuid> {
if let (45, [b'u', b'r', b'n', b':', b'u', b'u', b'i', b'd', b':', s @ ..]) =
(input.len(), input)
{
parse_hyphenated(s)
} else {
Err(InvalidUuid(input))
}
}
#[inline]
pub(crate) const fn parse_simple(s: &[u8]) -> Result<[u8; 16], InvalidUuid> {
// This length check here removes all other bounds
// checks in this function
if s.len() != 32 {
return Err(InvalidUuid(s));
}
let mut buf: [u8; 16] = [0; 16];
let mut i = 0;
while i < 16 {
// Convert a two-char hex value (like `A8`)
// into a byte (like `10101000`)
let h1 = HEX_TABLE[s[i * 2] as usize];
let h2 = HEX_TABLE[s[i * 2 + 1] as usize];
// We use `0xff` as a sentinel value to indicate
// an invalid hex character sequence (like the letter `G`)
if h1 | h2 == 0xff {
return Err(InvalidUuid(s));
}
// The upper nibble needs to be shifted into position
// to produce the final byte value
buf[i] = SHL4_TABLE[h1 as usize] | h2;
i += 1;
}
Ok(buf)
}
#[inline]
const fn parse_hyphenated(s: &[u8]) -> Result<[u8; 16], InvalidUuid> {
// This length check here removes all other bounds
// checks in this function
if s.len() != 36 {
return Err(InvalidUuid(s));
}
// We look at two hex-encoded values (4 chars) at a time because
// that's the size of the smallest group in a hyphenated UUID.
// The indexes we're interested in are:
//
// uuid : 936da01f-9abd-4d9d-80c7-02af85c822a8
// | | || || || || | |
// hyphens : | | 8| 13| 18| 23| | |
// positions: 0 4 9 14 19 24 28 32
// First, ensure the hyphens appear in the right places
match [s[8], s[13], s[18], s[23]] {
[b'-', b'-', b'-', b'-'] => {}
_ => return Err(InvalidUuid(s)),
}
let positions: [u8; 8] = [0, 4, 9, 14, 19, 24, 28, 32];
let mut buf: [u8; 16] = [0; 16];
let mut j = 0;
while j < 8 {
let i = positions[j];
// The decoding here is the same as the simple case
// We're just dealing with two values instead of one
let h1 = HEX_TABLE[s[i as usize] as usize];
let h2 = HEX_TABLE[s[(i + 1) as usize] as usize];
let h3 = HEX_TABLE[s[(i + 2) as usize] as usize];
let h4 = HEX_TABLE[s[(i + 3) as usize] as usize];
if h1 | h2 | h3 | h4 == 0xff {
return Err(InvalidUuid(s));
}
buf[j * 2] = SHL4_TABLE[h1 as usize] | h2;
buf[j * 2 + 1] = SHL4_TABLE[h3 as usize] | h4;
j += 1;
}
Ok(buf)
}
const HEX_TABLE: &[u8; 256] = &{
let mut buf = [0; 256];
let mut i: u8 = 0;
loop {
buf[i as usize] = match i {
b'0'..=b'9' => i - b'0',
b'a'..=b'f' => i - b'a' + 10,
b'A'..=b'F' => i - b'A' + 10,
_ => 0xff,
};
if i == 255 {
break buf;
}
i += 1
}
};
const SHL4_TABLE: &[u8; 256] = &{
let mut buf = [0; 256];
let mut i: u8 = 0;
loop {
buf[i as usize] = i.wrapping_shl(4);
if i == 255 {
break buf;
}
i += 1;
}
};
#[cfg(test)]
mod tests {
use super::*;
use crate::{std::string::ToString, tests::new};
#[test]
fn test_parse_uuid_v4_valid() {
let from_hyphenated = Uuid::parse_str("67e55044-10b1-426f-9247-bb680e5fe0c8").unwrap();
let from_simple = Uuid::parse_str("67e5504410b1426f9247bb680e5fe0c8").unwrap();
let from_urn = Uuid::parse_str("urn:uuid:67e55044-10b1-426f-9247-bb680e5fe0c8").unwrap();
let from_guid = Uuid::parse_str("{67e55044-10b1-426f-9247-bb680e5fe0c8}").unwrap();
assert_eq!(from_hyphenated, from_simple);
assert_eq!(from_hyphenated, from_urn);
assert_eq!(from_hyphenated, from_guid);
assert!(Uuid::parse_str("00000000000000000000000000000000").is_ok());
assert!(Uuid::parse_str("67e55044-10b1-426f-9247-bb680e5fe0c8").is_ok());
assert!(Uuid::parse_str("F9168C5E-CEB2-4faa-B6BF-329BF39FA1E4").is_ok());
assert!(Uuid::parse_str("67e5504410b1426f9247bb680e5fe0c8").is_ok());
assert!(Uuid::parse_str("01020304-1112-2122-3132-414243444546").is_ok());
assert!(Uuid::parse_str("urn:uuid:67e55044-10b1-426f-9247-bb680e5fe0c8").is_ok());
assert!(Uuid::parse_str("{6d93bade-bd9f-4e13-8914-9474e1e3567b}").is_ok());
// Nil
let nil = Uuid::nil();
assert_eq!(
Uuid::parse_str("00000000000000000000000000000000").unwrap(),
nil
);
assert_eq!(
Uuid::parse_str("00000000-0000-0000-0000-000000000000").unwrap(),
nil
);
}
#[test]
fn test_parse_uuid_v4_invalid() {
// Invalid
assert_eq!(
Uuid::parse_str(""),
Err(Error(ErrorKind::SimpleLength { len: 0 }))
);
assert_eq!(
Uuid::parse_str("!"),
Err(Error(ErrorKind::Char {
character: '!',
index: 1,
}))
);
assert_eq!(
Uuid::parse_str("F9168C5E-CEB2-4faa-B6BF-329BF39FA1E45"),
Err(Error(ErrorKind::GroupLength {
group: 4,
len: 13,
index: 25,
}))
);
assert_eq!(
Uuid::parse_str("F9168C5E-CEB2-4faa-BBF-329BF39FA1E4"),
Err(Error(ErrorKind::GroupLength {
group: 3,
len: 3,
index: 20,
}))
);
assert_eq!(
Uuid::parse_str("F9168C5E-CEB2-4faa-BGBF-329BF39FA1E4"),
Err(Error(ErrorKind::Char {
character: 'G',
index: 21,
}))
);
assert_eq!(
Uuid::parse_str("F9168C5E-CEB2F4faaFB6BFF329BF39FA1E4"),
Err(Error(ErrorKind::GroupCount { count: 2 }))
);
assert_eq!(
Uuid::parse_str("F9168C5E-CEB2-4faaFB6BFF329BF39FA1E4"),
Err(Error(ErrorKind::GroupCount { count: 3 }))
);
assert_eq!(
Uuid::parse_str("F9168C5E-CEB2-4faa-B6BFF329BF39FA1E4"),
Err(Error(ErrorKind::GroupCount { count: 4 }))
);
assert_eq!(
Uuid::parse_str("F9168C5E-CEB2-4faa"),
Err(Error(ErrorKind::GroupCount { count: 3 }))
);
assert_eq!(
Uuid::parse_str("F9168C5E-CEB2-4faaXB6BFF329BF39FA1E4"),
Err(Error(ErrorKind::Char {
character: 'X',
index: 19,
}))
);
assert_eq!(
Uuid::parse_str("{F9168C5E-CEB2-4faa9B6BFF329BF39FA1E41"),
Err(Error(ErrorKind::Char {
character: '{',
index: 1,
}))
);
assert_eq!(
Uuid::parse_str("{F9168C5E-CEB2-4faa9B6BFF329BF39FA1E41}"),
Err(Error(ErrorKind::GroupCount { count: 3 }))
);
assert_eq!(
Uuid::parse_str("F9168C5E-CEB-24fa-eB6BFF32-BF39FA1E4"),
Err(Error(ErrorKind::GroupLength {
group: 1,
len: 3,
index: 10,
}))
);
// // (group, found, expecting)
// //
assert_eq!(
Uuid::parse_str("01020304-1112-2122-3132-41424344"),
Err(Error(ErrorKind::GroupLength {
group: 4,
len: 8,
index: 25,
}))
);
assert_eq!(
Uuid::parse_str("67e5504410b1426f9247bb680e5fe0c"),
Err(Error(ErrorKind::SimpleLength { len: 31 }))
);
assert_eq!(
Uuid::parse_str("67e5504410b1426f9247bb680e5fe0c88"),
Err(Error(ErrorKind::SimpleLength { len: 33 }))
);
assert_eq!(
Uuid::parse_str("67e5504410b1426f9247bb680e5fe0cg8"),
Err(Error(ErrorKind::Char {
character: 'g',
index: 32,
}))
);
assert_eq!(
Uuid::parse_str("67e5504410b1426%9247bb680e5fe0c8"),
Err(Error(ErrorKind::Char {
character: '%',
index: 16,
}))
);
assert_eq!(
Uuid::parse_str("231231212212423424324323477343246663"),
Err(Error(ErrorKind::SimpleLength { len: 36 }))
);
assert_eq!(
Uuid::parse_str("{00000000000000000000000000000000}"),
Err(Error(ErrorKind::GroupCount { count: 1 }))
);
assert_eq!(
Uuid::parse_str("67e5504410b1426f9247bb680e5fe0c"),
Err(Error(ErrorKind::SimpleLength { len: 31 }))
);
assert_eq!(
Uuid::parse_str("67e550X410b1426f9247bb680e5fe0cd"),
Err(Error(ErrorKind::Char {
character: 'X',
index: 7,
}))
);
assert_eq!(
Uuid::parse_str("67e550-4105b1426f9247bb680e5fe0c"),
Err(Error(ErrorKind::GroupCount { count: 2 }))
);
assert_eq!(
Uuid::parse_str("F9168C5E-CEB2-4faa-B6BF1-02BF39FA1E4"),
Err(Error(ErrorKind::GroupLength {
group: 3,
len: 5,
index: 20,
}))
);
assert_eq!(
Uuid::parse_str("\u{bcf3c}"),
Err(Error(ErrorKind::Char {
character: '\u{bcf3c}',
index: 1
}))
);
}
#[test]
fn test_roundtrip_default() {
let uuid_orig = new();
let orig_str = uuid_orig.to_string();
let uuid_out = Uuid::parse_str(&orig_str).unwrap();
assert_eq!(uuid_orig, uuid_out);
}
#[test]
fn test_roundtrip_hyphenated() {
let uuid_orig = new();
let orig_str = uuid_orig.hyphenated().to_string();
let uuid_out = Uuid::parse_str(&orig_str).unwrap();
assert_eq!(uuid_orig, uuid_out);
}
#[test]
fn test_roundtrip_simple() {
let uuid_orig = new();
let orig_str = uuid_orig.simple().to_string();
let uuid_out = Uuid::parse_str(&orig_str).unwrap();
assert_eq!(uuid_orig, uuid_out);
}
#[test]
fn test_roundtrip_urn() {
let uuid_orig = new();
let orig_str = uuid_orig.urn().to_string();
let uuid_out = Uuid::parse_str(&orig_str).unwrap();
assert_eq!(uuid_orig, uuid_out);
}
#[test]
fn test_roundtrip_braced() {
let uuid_orig = new();
let orig_str = uuid_orig.braced().to_string();
let uuid_out = Uuid::parse_str(&orig_str).unwrap();
assert_eq!(uuid_orig, uuid_out);
}
#[test]
fn test_roundtrip_parse_urn() {
let uuid_orig = new();
let orig_str = uuid_orig.urn().to_string();
let uuid_out = Uuid::from_bytes(parse_urn(orig_str.as_bytes()).unwrap());
assert_eq!(uuid_orig, uuid_out);
}
#[test]
fn test_roundtrip_parse_braced() {
let uuid_orig = new();
let orig_str = uuid_orig.braced().to_string();
let uuid_out = Uuid::from_bytes(parse_braced(orig_str.as_bytes()).unwrap());
assert_eq!(uuid_orig, uuid_out);
}
#[test]
fn test_try_parse_ascii_non_utf8() {
assert!(Uuid::try_parse_ascii(b"67e55044-10b1-426f-9247-bb680e5\0e0c8").is_err());
}
}