#![allow(unused)] use std::ascii::AsciiExt; use std::cmp; use std::default::Default; use std::fmt; use std::str; use self::internal::IntoQuality; /// Represents a quality used in quality values. /// /// Can be created with the `q` function. /// /// # Implementation notes /// /// The quality value is defined as a number between 0 and 1 with three decimal places. This means /// there are 1001 possible values. Since floating point numbers are not exact and the smallest /// floating point data type (`f32`) consumes four bytes, hyper uses an `u16` value to store the /// quality internally. For performance reasons you may set quality directly to a value between /// 0 and 1000 e.g. `Quality(532)` matches the quality `q=0.532`. /// /// [RFC7231 Section 5.3.1](https://tools.ietf.org/html/rfc7231#section-5.3.1) /// gives more information on quality values in HTTP header fields. #[derive(Copy, Clone, Debug, Eq, Ord, PartialEq, PartialOrd)] pub struct Quality(u16); impl Default for Quality { fn default() -> Quality { Quality(1000) } } /// Represents an item with a quality value as defined in /// [RFC7231](https://tools.ietf.org/html/rfc7231#section-5.3.1). #[derive(Clone, PartialEq, Debug)] pub struct QualityItem { /// The actual contents of the field. pub item: T, /// The quality (client or server preference) for the value. pub quality: Quality, } impl QualityItem { /// Creates a new `QualityItem` from an item and a quality. /// The item can be of any type. /// The quality should be a value in the range [0, 1]. pub fn new(item: T, quality: Quality) -> QualityItem { QualityItem { item, quality } } } impl cmp::PartialOrd for QualityItem { fn partial_cmp(&self, other: &QualityItem) -> Option { self.quality.partial_cmp(&other.quality) } } impl fmt::Display for QualityItem { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { try!(fmt::Display::fmt(&self.item, f)); match self.quality.0 { 1000 => Ok(()), 0 => f.write_str("; q=0"), x => write!(f, "; q=0.{}", format!("{:03}", x).trim_right_matches('0')) } } } impl str::FromStr for QualityItem { type Err = ::error::ParseError; fn from_str(s: &str) -> Result, ::error::ParseError> { if !s.is_ascii() { return Err(::error::ParseError::Header); } // Set defaults used if parsing fails. let mut raw_item = s; let mut quality = 1f32; let parts: Vec<&str> = s.rsplitn(2, ';').map(|x| x.trim()).collect(); if parts.len() == 2 { if parts[0].len() < 2 { return Err(::error::ParseError::Header); } let start = &parts[0][0..2]; if start == "q=" || start == "Q=" { let q_part = &parts[0][2..parts[0].len()]; if q_part.len() > 5 { return Err(::error::ParseError::Header); } match q_part.parse::() { Ok(q_value) => { if 0f32 <= q_value && q_value <= 1f32 { quality = q_value; raw_item = parts[1]; } else { return Err(::error::ParseError::Header); } }, Err(_) => return Err(::error::ParseError::Header), } } } match raw_item.parse::() { // we already checked above that the quality is within range Ok(item) => Ok(QualityItem::new(item, from_f32(quality))), Err(_) => Err(::error::ParseError::Header), } } } #[inline] fn from_f32(f: f32) -> Quality { // this function is only used internally. A check that `f` is within range // should be done before calling this method. Just in case, this // debug_assert should catch if we were forgetful debug_assert!(f >= 0f32 && f <= 1f32, "q value must be between 0.0 and 1.0"); Quality((f * 1000f32) as u16) } /// Convenience function to wrap a value in a `QualityItem` /// Sets `q` to the default 1.0 pub fn qitem(item: T) -> QualityItem { QualityItem::new(item, Default::default()) } /// Convenience function to create a `Quality` from a float or integer. /// /// Implemented for `u16` and `f32`. Panics if value is out of range. pub fn q(val: T) -> Quality { val.into_quality() } mod internal { use super::Quality; // TryFrom is probably better, but it's not stable. For now, we want to // keep the functionality of the `q` function, while allowing it to be // generic over `f32` and `u16`. // // `q` would panic before, so keep that behavior. `TryFrom` can be // introduced later for a non-panicking conversion. pub trait IntoQuality: Sealed + Sized { fn into_quality(self) -> Quality; } impl IntoQuality for f32 { fn into_quality(self) -> Quality { assert!(self >= 0f32 && self <= 1f32, "float must be between 0.0 and 1.0"); super::from_f32(self) } } impl IntoQuality for u16 { fn into_quality(self) -> Quality { assert!(self <= 1000, "u16 must be between 0 and 1000"); Quality(self) } } pub trait Sealed {} impl Sealed for u16 {} impl Sealed for f32 {} } #[cfg(test)] mod tests { use super::*; use super::super::encoding::*; #[test] fn test_quality_item_fmt_q_1() { let x = qitem(Chunked); assert_eq!(format!("{}", x), "chunked"); } #[test] fn test_quality_item_fmt_q_0001() { let x = QualityItem::new(Chunked, Quality(1)); assert_eq!(format!("{}", x), "chunked; q=0.001"); } #[test] fn test_quality_item_fmt_q_05() { // Custom value let x = QualityItem{ item: EncodingExt("identity".to_owned()), quality: Quality(500), }; assert_eq!(format!("{}", x), "identity; q=0.5"); } #[test] fn test_quality_item_fmt_q_0() { // Custom value let x = QualityItem{ item: EncodingExt("identity".to_owned()), quality: Quality(0), }; assert_eq!(x.to_string(), "identity; q=0"); } #[test] fn test_quality_item_from_str1() { let x: Result, _> = "chunked".parse(); assert_eq!(x.unwrap(), QualityItem{ item: Chunked, quality: Quality(1000), }); } #[test] fn test_quality_item_from_str2() { let x: Result, _> = "chunked; q=1".parse(); assert_eq!(x.unwrap(), QualityItem{ item: Chunked, quality: Quality(1000), }); } #[test] fn test_quality_item_from_str3() { let x: Result, _> = "gzip; q=0.5".parse(); assert_eq!(x.unwrap(), QualityItem{ item: Gzip, quality: Quality(500), }); } #[test] fn test_quality_item_from_str4() { let x: Result, _> = "gzip; q=0.273".parse(); assert_eq!(x.unwrap(), QualityItem{ item: Gzip, quality: Quality(273), }); } #[test] fn test_quality_item_from_str5() { let x: Result, _> = "gzip; q=0.2739999".parse(); assert!(x.is_err()); } #[test] fn test_quality_item_from_str6() { let x: Result, _> = "gzip; q=2".parse(); assert!(x.is_err()); } #[test] fn test_quality_item_ordering() { let x: QualityItem = "gzip; q=0.5".parse().ok().unwrap(); let y: QualityItem = "gzip; q=0.273".parse().ok().unwrap(); let comparision_result: bool = x.gt(&y); assert!(comparision_result) } #[test] fn test_quality() { assert_eq!(q(0.5), Quality(500)); } #[test] #[should_panic] // FIXME - 32-bit msvc unwinding broken #[cfg_attr(all(target_arch="x86", target_env="msvc"), ignore)] fn test_quality_invalid() { q(-1.0); } #[test] #[should_panic] // FIXME - 32-bit msvc unwinding broken #[cfg_attr(all(target_arch="x86", target_env="msvc"), ignore)] fn test_quality_invalid2() { q(2.0); } #[test] fn test_fuzzing_bugs() { assert!("99999;".parse::>().is_err()); assert!("\x0d;;;=\u{d6aa}==".parse::>().is_err()) } }