use std::collections::HashSet; use super::authority::Authority; use super::codec::{decode_element, encode_element}; use super::context::Context; use super::error::Error; use super::character_classes::{ ALPHA, SCHEME_NOT_FIRST, PCHAR_NOT_PCT_ENCODED, QUERY_OR_FRAGMENT_NOT_PCT_ENCODED, QUERY_NOT_PCT_ENCODED_WITHOUT_PLUS, }; /// This type is used to parse and generate URI strings to and from their /// various components. Components are percent-encoded as necessary during /// generation, and percent encodings are decoded during parsing. /// /// Since most URI components, once decoded, may include non-UTF8 byte /// sequences (which are always percent-encoded), getter methods such as /// [`path`] and [`query`] return byte array [slice] references (`&[u8]`) /// rather than string or string slice references. Fallible convenience /// methods ending in `_to_string`, such as [`path_to_string`] and /// [`query_to_string`], are provided to convert these to strings. /// /// The "Authority" part of the Uri is represented by the [`Authority` type]. /// Although the `Uri` type provides [`userinfo`], [`host`], and [`port`] /// methods for convenience, `Uri` holds these components through the /// [`Authority` type], which can be accessed via [`authority`] and /// [`set_authority`]. To set or change the userinfo, host, or port of a /// `Uri`, construct a new `Authority` value and set it in the `Uri` with /// [`set_authority`]. /// /// # Examples /// /// ## Parsing a URI into its components /// /// ```rust /// # extern crate rhymuri; /// use rhymuri::Uri; /// /// # fn main() -> Result<(), rhymuri::Error> { /// let uri = Uri::parse("http://www.example.com/foo?bar#baz")?; /// let authority = uri.authority().unwrap(); /// assert_eq!("www.example.com".as_bytes(), authority.host()); /// assert_eq!(Some("www.example.com"), uri.host_to_string()?.as_deref()); /// assert_eq!("/foo", uri.path_to_string()?); /// assert_eq!(Some("bar"), uri.query_to_string()?.as_deref()); /// assert_eq!(Some("baz"), uri.fragment_to_string()?.as_deref()); /// # Ok(()) /// # } /// ``` /// /// ## Generating a URI from its components /// /// ```rust /// # extern crate rhymuri; /// use rhymuri::{Authority, Uri}; /// /// let mut uri = Uri::default(); /// assert!(uri.set_scheme(String::from("http")).is_ok()); /// let mut authority = Authority::default(); /// authority.set_host("www.example.com"); /// uri.set_authority(Some(authority)); /// uri.set_path_from_str("/foo"); /// uri.set_query(Some("bar".into())); /// uri.set_fragment(Some("baz".into())); /// assert_eq!("http://www.example.com/foo?bar#baz", uri.to_string()); /// ``` /// /// [`authority`]: #method.authority /// [`Authority` type]: struct.Authority.html /// [`host`]: #method.host /// [`path`]: #method.path /// [`path_to_string`]: #method.path_to_string /// [`port`]: #method.port /// [`query`]: #method.query /// [`query_to_string`]: #method.query_to_string /// [`set_authority`]: #method.set_authority /// [`userinfo`]: #method.userinfo /// [slice]: https://doc.rust-lang.org/std/primitive.slice.html #[derive(Clone, Debug, Default, PartialEq)] pub struct Uri { scheme: Option, authority: Option, path: Vec>, query: Option>, fragment: Option>, } impl Uri { /// Borrow the authority (if any) of the URI. #[must_use = "respect mah authoritah"] pub fn authority(&self) -> Option<&Authority> { self.authority.as_ref() } fn can_navigate_path_up_one_level(path: T) -> bool where T: AsRef<[Vec]> { let path = path.as_ref(); match path.first() { // First segment empty means path has leading slash, // so we can only navigate up if there are two or more segments. Some(segment) if segment.is_empty() => path.len() > 1, // Otherwise, we can navigate up as long as there is at least one // segment. Some(_) => true, None => false } } fn check_scheme(scheme: T) -> Result where T: AsRef { match scheme.as_ref() { "" => return Err(Error::EmptyScheme), scheme => scheme .chars() .enumerate() .try_fold((), |_, (i, c)| { let valid_characters: &HashSet = if i == 0 { &ALPHA } else { &SCHEME_NOT_FIRST }; if valid_characters.contains(&c) { Ok(()) } else { Err(Error::IllegalCharacter(Context::Scheme)) } })?, }; Ok(scheme) } /// Determines if the URI contains a relative path rather than an absolute /// path. #[must_use = "please use the return value kthxbye"] pub fn contains_relative_path(&self) -> bool { !Self::is_path_absolute(&self.path) } fn decode_query_or_fragment( query_or_fragment: T, context: Context, ) -> Result, Error> where T: AsRef { decode_element( query_or_fragment, &QUERY_OR_FRAGMENT_NOT_PCT_ENCODED, context ) } /// Borrow the fragment (if any) of the URI. #[must_use = "A query and a fragment walked into a bar. Too bad you're ignoring the fragment because it's actually a funny joke."] pub fn fragment(&self) -> Option<&[u8]> { self.fragment.as_deref() } /// Convert the fragment (if any) into a string. /// /// # Errors /// /// Since fragments may contain non-UTF8 byte sequences, this function may /// return [`Error::CannotExpressAsUtf8`](enum.Error.html#variant.CannotExpressAsUtf8). #[must_use = "use the fragment return value silly programmer"] pub fn fragment_to_string(&self) -> Result, Error> { self.fragment() .map(|fragment| { String::from_utf8(fragment.to_vec()) .map_err(Into::into) }) .transpose() } /// Borrow the host portion of the Authority (if any) of the URI. #[must_use = "why u no use host return value?"] pub fn host(&self) -> Option<&[u8]> { self.authority .as_ref() .map(Authority::host) } /// Convert the host portion of the Authority (if any) into a string. /// /// # Errors /// /// Since host names may contain non-UTF8 byte sequences, this function may /// return /// [`Error::CannotExpressAsUtf8`](enum.Error.html#variant.CannotExpressAsUtf8). #[must_use = "I made that host field into a string for you; don't you want it?"] pub fn host_to_string(&self) -> Result, Error> { self.host() .map(|host| { String::from_utf8(host.to_vec()) .map_err(Into::into) }) .transpose() } fn is_path_absolute(path: T) -> bool where T: AsRef<[Vec]> { matches!(path.as_ref(), [segment, ..] if segment.is_empty()) } /// Determines if the URI is a `relative-ref` (relative reference), as /// defined in [RFC 3986 section /// 4.2](https://tools.ietf.org/html/rfc3986#section-4.2). A relative /// reference has no scheme, but may still have an authority. #[must_use = "why would you call an accessor method and not use the return value, silly human"] pub fn is_relative_reference(&self) -> bool { self.scheme.is_none() } /// Apply the `remove_dot_segments` routine talked about /// in [RFC 3986 section /// 5.2](https://tools.ietf.org/html/rfc3986#section-5.2) to the path /// segments of the URI, in order to normalize the path (apply and remove /// "." and ".." segments). /// /// # Examples /// /// ```rust /// # extern crate rhymuri; /// use rhymuri::Uri; /// /// # fn main() -> Result<(), rhymuri::Error> { /// let mut uri = Uri::parse("/a/b/c/./../../g")?; /// uri.normalize(); /// assert_eq!("/a/g", uri.path_to_string()?); /// # Ok(()) /// # } /// ``` pub fn normalize(&mut self) { self.path = Self::normalize_path(&self.path); } fn normalize_path(original_path: T) -> Vec> where T: AsRef<[Vec]> { // Rebuild the path one segment // at a time, removing and applying special // navigation segments ("." and "..") as we go. // // The `at_directory_level` variable tracks whether or not // the `normalized_path` refers to a directory. let mut at_directory_level = false; let mut normalized_path = Vec::new(); for segment in original_path.as_ref() { if segment == b"." { at_directory_level = true; } else if segment == b".." { // Remove last path element // if we can navigate up a level. if !normalized_path.is_empty() && Self::can_navigate_path_up_one_level(&normalized_path) { normalized_path.pop(); } at_directory_level = true; } else { // Non-relative elements can just // transfer over fine. An empty // segment marks a transition to // a directory level context. If we're // already in that context, we // want to ignore the transition. let new_at_directory_level = segment.is_empty(); if !at_directory_level || !segment.is_empty() { normalized_path.push(segment.clone()); } at_directory_level = new_at_directory_level; } } // If at the end of rebuilding the path, // we're in a directory level context, // add an empty segment to mark the fact. match (at_directory_level, normalized_path.last()) { (true, Some(segment)) if !segment.is_empty() => { normalized_path.push(vec![]); }, _ => () } normalized_path } /// Interpret the given string as a URI, separating its various components, /// returning a `Uri` value containing them. /// /// # Errors /// /// There are many ways to screw up a URI string, and this function will /// let you know what's up by returning a variant of the /// [`Error`](enum.Error.html) type. pub fn parse(uri_string: T) -> Result where T: AsRef { let (scheme, rest) = Self::parse_scheme(uri_string.as_ref())?; let path_end = rest .find(&['?', '#'][..]) .unwrap_or_else(|| rest.len()); let authority_and_path_string = &rest[0..path_end]; let query_and_or_fragment = &rest[path_end..]; let (authority, path) = Self::split_authority_from_path_and_parse_them(authority_and_path_string)?; let (fragment, possible_query) = Self::parse_fragment(query_and_or_fragment)?; let query = Self::parse_query(possible_query)?; Ok(Self{ scheme, authority, path, query, fragment }) } fn parse_fragment(query_and_or_fragment: &str) -> Result<(Option>, &str), Error> { if let Some(fragment_delimiter) = query_and_or_fragment.find('#') { let fragment = Self::decode_query_or_fragment( &query_and_or_fragment[fragment_delimiter+1..], Context::Fragment )?; Ok(( Some(fragment), &query_and_or_fragment[0..fragment_delimiter] )) } else { Ok(( None, query_and_or_fragment )) } } fn parse_path(path_string: T) -> Result>, Error> where T: AsRef { match path_string.as_ref() { "/" => { // Special case of an empty absolute path, which we want to // represent as single empty-string element to indicate that it // is absolute. Ok(vec![vec![]]) }, "" => { // Special case of an empty relative path, which we want to // represent as an empty vector. Ok(vec![]) }, path_string => { path_string .split('/') .map(|segment| { decode_element( &segment, &PCHAR_NOT_PCT_ENCODED, Context::Path ) }) .collect() } } } fn parse_query(query_and_or_fragment: T) -> Result>, Error> where T: AsRef { let query_and_or_fragment = query_and_or_fragment.as_ref(); if query_and_or_fragment.is_empty() { Ok(None) } else { let query = Self::decode_query_or_fragment( &query_and_or_fragment[1..], Context::Query )?; Ok(Some(query)) } } fn parse_scheme(uri_string: &str) -> Result<(Option, &str), Error> { // Limit our search so we don't scan into the authority // or path elements, because these may have the colon // character as well, which we might misinterpret // as the scheme delimiter. let authority_or_path_delimiter_start = uri_string.find('/') .unwrap_or_else(|| uri_string.len()); if let Some(scheme_end) = &uri_string[0..authority_or_path_delimiter_start].find(':') { let scheme = Self::check_scheme(&uri_string[0..*scheme_end])? .to_lowercase(); Ok((Some(scheme), &uri_string[*scheme_end+1..])) } else { Ok((None, uri_string)) } } /// Borrow the path component of the URI. /// /// The path is represented as a two-dimensional vector: /// * the "segments" or pieces of the path between the slashes /// * the bytes that make up each segment /// /// Byte vectors are used instead of strings because segments may contain /// non-UTF8 sequences. /// /// Leading and trailing slashes in the path are special cases represented /// by extra empty segments at the beginning and/or end of the path. /// /// # Examples /// /// (Note: the examples below show strings, not byte vectors, simply to be /// more readable.) /// /// ```text /// "foo/bar" -> ["foo", "bar"] /// "/foo/bar" -> ["", "foo", "bar"] /// "foo/bar/" -> ["foo", "bar", ""] /// "/foo/bar/" -> ["", "foo", "bar", ""] /// "/" -> [""] /// "" -> [] /// ``` #[must_use = "you called path() to get the path, so why you no use?"] pub fn path(&self) -> &Vec> { &self.path } /// Convert the path portion of the URI into a string. /// /// # Errors /// /// Since path segments may contain non-UTF8 byte sequences, this function /// may return /// [`Error::CannotExpressAsUtf8`](enum.Error.html#variant.CannotExpressAsUtf8). #[must_use = "we went through all that trouble to put the path into a string, and you don't want it?"] pub fn path_to_string(&self) -> Result { match &*self.path { [segment] if segment.is_empty() => Ok("/".to_string()), path => Ok( String::from_utf8( path .join(&b"/"[..]) )? ), } } /// Return a copy of the port (if any) contained in the URI. #[must_use = "why did you get the port number and then throw it away?"] pub fn port(&self) -> Option { self.authority.as_ref().and_then(Authority::port) } /// Borrow the query (if any) of the URI. #[must_use = "don't you want to know what that query was?"] pub fn query(&self) -> Option<&[u8]> { self.query.as_deref() } /// Convert the query (if any) into a string. /// /// # Errors /// /// Since queries may contain non-UTF8 byte sequences, this function may /// return [`Error::CannotExpressAsUtf8`](enum.Error.html#variant.CannotExpressAsUtf8). #[must_use = "use the query return value silly programmer"] pub fn query_to_string(&self) -> Result, Error> { self.query() .map(|query| { String::from_utf8(query.to_vec()) .map_err(Into::into) }) .transpose() } /// Return a new URI which is the result of applying the given relative /// reference to the URI, following the algorithm from [RFC 3986 section /// 5.2.2](https://tools.ietf.org/html/rfc3986#section-5.2.2). /// /// # Examples /// /// ```rust /// # extern crate rhymuri; /// use rhymuri::Uri; /// /// # fn main() -> Result<(), rhymuri::Error> { /// let base = Uri::parse("http://a/b/c/d;p?q")?; /// let relative_reference = Uri::parse("g;x?y#s")?; /// let resolved = base.resolve(&relative_reference); /// assert_eq!("http://a/b/c/g;x?y#s", resolved.to_string()); /// # Ok(()) /// # } /// ``` #[must_use = "why go through all that effort to resolve the URI, when you're not going to use it?!"] pub fn resolve(&self, relative_reference: &Self) -> Self { let (scheme, authority, path, query) = if relative_reference.scheme.is_some() { ( relative_reference.scheme.clone(), relative_reference.authority.clone(), Self::normalize_path(&relative_reference.path), relative_reference.query.clone() ) } else { relative_reference.authority.as_ref().map_or_else( || { let scheme = self.scheme.clone(); let authority = self.authority.clone(); if relative_reference.path.is_empty() { let path = self.path.clone(); let query = if relative_reference.query.is_none() { self.query.clone() } else { relative_reference.query.clone() }; ( scheme, authority, path, query ) } else { let query = relative_reference.query.clone(); // RFC describes this as: // "if (R.path starts-with "/") then" if Self::is_path_absolute(&relative_reference.path) { ( scheme, authority, relative_reference.path.clone(), query ) } else { // RFC describes this as: // "T.path = merge(Base.path, R.path);" let mut path = self.path.clone(); if path.len() > 1 { path.pop(); } path.extend(relative_reference.path.iter().cloned()); ( scheme, authority, Self::normalize_path(&path), query ) } } }, |authority| ( self.scheme.clone(), Some(authority.clone()), Self::normalize_path(&relative_reference.path), relative_reference.query.clone() ) ) }; Self{ scheme, authority, path, query, fragment: relative_reference.fragment.clone() } } /// Borrow the scheme (if any) component of the URI. #[must_use = "you wanted to use that scheme, right?"] pub fn scheme(&self) -> Option<&str> { // NOTE: This seemingly magic `as_deref` works because of two // things that are going on here: // 1) String implements DeRef with `str` as the associated type // `Target`, meaning you can use a String in a context requiring // &str, and String does the conversion work. // 2) as_deref works by turning `Option` into `Option<&T::Target>`, // requiring T to implement Deref. In this case T is String. self.scheme.as_deref() } /// Change the authority of the URI. pub fn set_authority(&mut self, authority: T) where T: Into> { self.authority = authority.into(); } /// Change the fragment of the URI. pub fn set_fragment(&mut self, fragment: T) where T: Into>> { self.fragment = fragment.into(); } /// Change the path of the URI. /// /// Note: See [`path`](#method.path) for special notes about what the /// segments of the path mean. pub fn set_path(&mut self, path: T) where T: Into>> { self.path = path.into(); } /// Change the path of the URI using a string which is split by its slash /// (`/`) characters to determine the path segments. /// /// Note: See [`path`](#method.path) for special notes about what the /// segments of the path mean. pub fn set_path_from_str(&mut self, path: T) where T: AsRef { match path.as_ref() { "" => self.set_path(vec![]), path => self.set_path( path .split('/') .map(|segment| segment.as_bytes().to_vec()) .collect::>>() ), } } /// Change the query of the URI. pub fn set_query(&mut self, query: T) where T: Into>> { self.query = query.into(); } /// Change the scheme of the URI. /// /// # Errors /// /// The set of characters allowed in the scheme of a URI is limited. /// [`Error::IllegalCharacter`](enum.Error.html#variant.IllegalCharacter) /// is returned if you try to use a character that isn't allowed. pub fn set_scheme(&mut self, scheme: T) -> Result<(), Error> where T: Into> { self.scheme = match scheme.into() { Some(scheme) => { Self::check_scheme(&scheme)?; Some(scheme) } None => None, }; Ok(()) } fn split_authority_from_path_and_parse_them( authority_and_path_string: T ) -> Result<(Option, Vec>), Error> where T: AsRef { // Split authority from path. If there is an authority, parse it. let authority_and_path_string = authority_and_path_string.as_ref(); if authority_and_path_string.starts_with("//") { // Strip off authority marker. let authority_and_path_string = &authority_and_path_string[2..]; // First separate the authority from the path. let authority_end = authority_and_path_string.find('/') .unwrap_or_else(|| authority_and_path_string.len()); let authority_string = &authority_and_path_string[0..authority_end]; let path_string = &authority_and_path_string[authority_end..]; // Parse the elements inside the authority string. let authority = Authority::parse(authority_string)?; let path = if path_string.is_empty() { vec![vec![]] } else { Self::parse_path(path_string)? }; Ok((Some(authority), path)) } else { let path = Self::parse_path(authority_and_path_string)?; Ok((None, path)) } } /// Borrow the userinfo portion (if any) of the Authority (if any) of the /// URI. /// /// Note that you can get `None` if there is either no Authority in the URI /// or there is an Authority in the URI but it has no userinfo in it. #[must_use = "security breach... security breach... userinfo not used"] pub fn userinfo(&self) -> Option<&[u8]> { self.authority.as_ref().and_then(Authority::userinfo) } /// Convert the fragment (if any) into a string. /// /// # Errors /// /// Since fragments may contain non-UTF8 byte sequences, this function may /// return [`Error::CannotExpressAsUtf8`](enum.Error.html#variant.CannotExpressAsUtf8). #[must_use = "come on, you intended to use that userinfo return value, didn't you?"] pub fn userinfo_to_string(&self) -> Result, Error> { self.userinfo() .map(|userinfo| { String::from_utf8(userinfo.to_vec()) .map_err(Into::into) }) .transpose() } } impl std::fmt::Display for Uri { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { if let Some(scheme) = &self.scheme { write!(f, "{}:", scheme)?; } if let Some(authority) = &self.authority { write!(f, "//{}", authority)?; } // Special case: absolute but otherwise empty path. if Self::is_path_absolute(&self.path) && self.path.len() == 1 { write!(f, "/")?; } for (i, segment) in self.path.iter().enumerate() { write!(f, "{}", encode_element(segment, &PCHAR_NOT_PCT_ENCODED))?; if i + 1 < self.path.len() { write!(f, "/")?; } } if let Some(query) = &self.query { write!(f, "?{}", encode_element(query, &QUERY_NOT_PCT_ENCODED_WITHOUT_PLUS))?; } if let Some(fragment) = &self.fragment { write!(f, "#{}", encode_element(fragment, &QUERY_OR_FRAGMENT_NOT_PCT_ENCODED))?; } Ok(()) } } #[cfg(test)] mod tests { use super::*; #[test] fn no_scheme() { let uri = Uri::parse("foo/bar"); assert!(uri.is_ok()); let uri = uri.unwrap(); assert_eq!(None, uri.scheme()); assert_eq!(&[&b"foo"[..], &b"bar"[..]].to_vec(), uri.path()); assert_eq!("foo/bar", uri.path_to_string().unwrap()); } #[test] fn url() { let uri = Uri::parse("http://www.example.com/foo/bar"); assert!(uri.is_ok()); let uri = uri.unwrap(); assert_eq!(Some("http"), uri.scheme()); assert_eq!(Some(&b"www.example.com"[..]), uri.host()); assert_eq!(Some("www.example.com"), uri.host_to_string().unwrap().as_deref()); assert_eq!(uri.path_to_string().unwrap(), "/foo/bar"); } #[test] fn urn_default_path_delimiter() { let uri = Uri::parse("urn:book:fantasy:Hobbit"); assert!(uri.is_ok()); let uri = uri.unwrap(); assert_eq!(Some("urn"), uri.scheme()); assert_eq!(None, uri.host()); assert_eq!(uri.path_to_string().unwrap(), "book:fantasy:Hobbit"); } #[test] fn path_corner_cases() { named_tuple!( struct TestVector { path_in: &'static str, path_out: Vec<&'static [u8]>, } ); let test_vectors: &[TestVector] = &[ ("", vec![]).into(), ("/", vec![&b""[..]]).into(), ("/foo", vec![&b""[..], &b"foo"[..]]).into(), ("foo/", vec![&b"foo"[..], &b""[..]]).into(), ]; for test_vector in test_vectors { let uri = Uri::parse(test_vector.path_in()); assert!(uri.is_ok()); let uri = uri.unwrap(); assert_eq!(test_vector.path_out(), uri.path()); } } #[test] fn uri_ends_after_authority() { let uri = Uri::parse("http://www.example.com"); assert!(uri.is_ok()); } #[test] fn relative_vs_non_relative_references() { named_tuple!( struct TestVector { uri_string: &'static str, is_relative_reference: bool } ); let test_vectors: &[TestVector] = &[ ("http://www.example.com/", false).into(), ("http://www.example.com", false).into(), ("/", true).into(), ("foo", true).into(), ]; for test_vector in test_vectors { let uri = Uri::parse(test_vector.uri_string()); assert!(uri.is_ok()); let uri = uri.unwrap(); assert_eq!( *test_vector.is_relative_reference(), uri.is_relative_reference() ); } } #[test] fn relative_vs_non_relative_paths() { named_tuple!( struct TestVector { uri_string: &'static str, contains_relative_path: bool } ); let test_vectors: &[TestVector] = &[ ("http://www.example.com/", false).into(), ("http://www.example.com", false).into(), ("/", false).into(), ("foo", true).into(), // This is only a valid test vector if we understand // correctly that an empty string IS a valid // "relative reference" URI with an empty path. ("", true).into(), ]; for (test_index, test_vector) in test_vectors.iter().enumerate() { let uri = Uri::parse(test_vector.uri_string()); assert!(uri.is_ok()); let uri = uri.unwrap(); assert_eq!( *test_vector.contains_relative_path(), uri.contains_relative_path(), "{}", test_index ); } } #[test] fn query_and_fragment_elements() { named_tuple!( struct TestVector { uri_string: &'static str, host: &'static str, query: Option<&'static str>, fragment: Option<&'static str> } ); let test_vectors: &[TestVector] = &[ ("http://www.example.com/", "www.example.com", None, None).into(), ("http://example.com?foo", "example.com", Some("foo"), None).into(), ("http://www.example.com#foo", "www.example.com", None, Some("foo")).into(), ("http://www.example.com?foo#bar", "www.example.com", Some("foo"), Some("bar")).into(), ("http://www.example.com?earth?day#bar", "www.example.com", Some("earth?day"), Some("bar")).into(), ("http://www.example.com/spam?foo#bar", "www.example.com", Some("foo"), Some("bar")).into(), ("http://www.example.com/?", "www.example.com", Some(""), None).into(), ]; for (test_index, test_vector) in test_vectors.iter().enumerate() { let uri = Uri::parse(test_vector.uri_string()); assert!(uri.is_ok()); let uri = uri.unwrap(); assert_eq!(Some(*test_vector.host()), uri.host_to_string().unwrap().as_deref()); assert_eq!( *test_vector.query(), uri.query_to_string().unwrap().as_deref(), "{}", test_index ); assert_eq!( *test_vector.fragment(), uri.fragment_to_string().unwrap().as_deref() ); } } #[test] fn scheme_illegal_characters() { let test_vectors = [ "://www.example.com/", "0://www.example.com/", "+://www.example.com/", "@://www.example.com/", ".://www.example.com/", "h@://www.example.com/", ]; for test_vector in &test_vectors { let uri = Uri::parse(*test_vector); assert!(uri.is_err()); } } #[test] fn scheme_barely_legal() { named_tuple!( struct TestVector { uri_string: &'static str, scheme: &'static str } ); let test_vectors: &[TestVector] = &[ ("h://www.example.com/", "h").into(), ("x+://www.example.com/", "x+").into(), ("y-://www.example.com/", "y-").into(), ("z.://www.example.com/", "z.").into(), ("aa://www.example.com/", "aa").into(), ("a0://www.example.com/", "a0").into(), ]; for test_vector in test_vectors { let uri = Uri::parse(test_vector.uri_string()); assert!(uri.is_ok()); let uri = uri.unwrap(); assert_eq!(Some(*test_vector.scheme()), uri.scheme()); } } #[test] fn scheme_mixed_case () { let test_vectors = [ "http://www.example.com/", "hTtp://www.example.com/", "HTTP://www.example.com/", "Http://www.example.com/", "HttP://www.example.com/", ]; for test_vector in &test_vectors { let uri = Uri::parse(test_vector); assert!(uri.is_ok()); let uri = uri.unwrap(); assert_eq!(Some("http"), uri.scheme()); } } #[test] fn dont_misinterpret_colon_in_other_places_as_scheme_delimiter() { let test_vectors = [ "//foo:bar@www.example.com/", "//www.example.com/a:b", "//www.example.com/foo?a:b", "//www.example.com/foo#a:b", "//[v7.:]/", "/:/foo", ]; for test_vector in &test_vectors { let uri = Uri::parse(test_vector); assert!(uri.is_ok()); let uri = uri.unwrap(); assert_eq!(None, uri.scheme()); } } #[test] fn path_illegal_characters() { let test_vectors = [ "http://www.example.com/foo[bar", "http://www.example.com/]bar", "http://www.example.com/foo]", "http://www.example.com/[", "http://www.example.com/abc/foo]", "http://www.example.com/abc/[", "http://www.example.com/foo]/abc", "http://www.example.com/[/abc", "http://www.example.com/foo]/", "http://www.example.com/[/", "/foo[bar", "/]bar", "/foo]", "/[", "/abc/foo]", "/abc/[", "/foo]/abc", "/[/abc", "/foo]/", "/[/", ]; for test_vector in &test_vectors { let uri = Uri::parse(test_vector); assert!(uri.is_err()); } } #[test] fn path_barely_legal() { named_tuple!( struct TestVector { uri_string: &'static str, path: Vec<&'static [u8]> } ); let test_vectors: &[TestVector] = &[ ("/:/foo", vec![&b""[..], &b":"[..], &b"foo"[..]]).into(), ("bob@/foo", vec![&b"bob@"[..], &b"foo"[..]]).into(), ("hello!", vec![&b"hello!"[..]]).into(), ("urn:hello,%20w%6Frld", vec![&b"hello, world"[..]]).into(), ("//example.com/foo/(bar)/", vec![&b""[..], &b"foo"[..], &b"(bar)"[..], &b""[..]]).into(), ]; for test_vector in test_vectors { let uri = Uri::parse(test_vector.uri_string()); assert!(uri.is_ok()); let uri = uri.unwrap(); assert_eq!(test_vector.path(), uri.path()); } } #[test] fn query_illegal_characters() { let test_vectors = [ "http://www.example.com/?foo[bar", "http://www.example.com/?]bar", "http://www.example.com/?foo]", "http://www.example.com/?[", "http://www.example.com/?abc/foo]", "http://www.example.com/?abc/[", "http://www.example.com/?foo]/abc", "http://www.example.com/?[/abc", "http://www.example.com/?foo]/", "http://www.example.com/?[/", "?foo[bar", "?]bar", "?foo]", "?[", "?abc/foo]", "?abc/[", "?foo]/abc", "?[/abc", "?foo]/", "?[/", ]; for test_vector in &test_vectors { let uri = Uri::parse(test_vector); assert!(uri.is_err()); } } #[test] fn query_barely_legal() { named_tuple!( struct TestVector { uri_string: &'static str, query: &'static str } ); let test_vectors: &[TestVector] = &[ ("/?:/foo", ":/foo").into(), ("?bob@/foo", "bob@/foo").into(), ("?hello!", "hello!").into(), ("urn:?hello,%20w%6Frld", "hello, world").into(), ("//example.com/foo?(bar)/", "(bar)/").into(), ("http://www.example.com/?foo?bar", "foo?bar").into(), ]; for (test_index, test_vector) in test_vectors.iter().enumerate() { let uri = Uri::parse(test_vector.uri_string()); assert!(uri.is_ok()); let uri = uri.unwrap(); assert_eq!( Some(*test_vector.query()), uri.query_to_string().unwrap().as_deref(), "{}", test_index ); } } #[test] fn fragment_illegal_characters() { let test_vectors = [ "http://www.example.com/#foo[bar", "http://www.example.com/#]bar", "http://www.example.com/#foo]", "http://www.example.com/#[", "http://www.example.com/#abc/foo]", "http://www.example.com/#abc/[", "http://www.example.com/#foo]/abc", "http://www.example.com/#[/abc", "http://www.example.com/#foo]/", "http://www.example.com/#[/", "#foo[bar", "#]bar", "#foo]", "#[", "#abc/foo]", "#abc/[", "#foo]/abc", "#[/abc", "#foo]/", "#[/", ]; for test_vector in &test_vectors { let uri = Uri::parse(test_vector); assert!(uri.is_err()); } } #[test] fn fragment_barely_legal() { named_tuple!( struct TestVector { uri_string: &'static str, fragment: &'static str } ); let test_vectors: &[TestVector] = &[ ("/#:/foo", ":/foo").into(), ("#bob@/foo", "bob@/foo").into(), ("#hello!", "hello!").into(), ("urn:#hello,%20w%6Frld", "hello, world").into(), ("//example.com/foo#(bar)/", "(bar)/").into(), ("http://www.example.com/#foo?bar", "foo?bar").into(), ]; for test_vector in test_vectors { let uri = Uri::parse(test_vector.uri_string()); assert!(uri.is_ok()); let uri = uri.unwrap(); assert_eq!( Some(*test_vector.fragment()), uri.fragment_to_string().unwrap().as_deref() ); } } #[test] fn paths_with_percent_encoded_characters() { named_tuple!( struct TestVector { uri_string: &'static str, path_first_segment: &'static [u8] } ); let test_vectors: &[TestVector] = &[ ("%41", &b"A"[..]).into(), ("%4A", &b"J"[..]).into(), ("%4a", &b"J"[..]).into(), ("%bc", &b"\xBC"[..]).into(), ("%Bc", &b"\xBC"[..]).into(), ("%bC", &b"\xBC"[..]).into(), ("%BC", &b"\xBC"[..]).into(), ("%41%42%43", &b"ABC"[..]).into(), ("%41%4A%43%4b", &b"AJCK"[..]).into(), ]; for test_vector in test_vectors { let uri = Uri::parse(test_vector.uri_string()); assert!(uri.is_ok()); let uri = uri.unwrap(); assert_eq!( test_vector.path_first_segment(), uri.path().first().unwrap() ); } } #[test] fn normalize_path() { named_tuple!( struct TestVector { uri_string: &'static str, normalized_path: &'static str, } ); let test_vectors: &[TestVector] = &[ ("/a/b/c/./../../g", "/a/g").into(), ("mid/content=5/../6", "mid/6").into(), ("http://example.com/a/../b", "/b").into(), ("http://example.com/../b", "/b").into(), ("http://example.com/a/../b/", "/b/").into(), ("http://example.com/a/../../b", "/b").into(), ("./a/b", "a/b").into(), ("", "").into(), (".", "").into(), ("./", "").into(), ("..", "").into(), ("../", "").into(), ("/", "/").into(), ("a/b/..", "a/").into(), ("a/b/../", "a/").into(), ("a/b/.", "a/b/").into(), ("a/b/./", "a/b/").into(), ("a/b/./c", "a/b/c").into(), ("a/b/./c/", "a/b/c/").into(), ("/a/b/..", "/a/").into(), ("/a/b/.", "/a/b/").into(), ("/a/b/./c", "/a/b/c").into(), ("/a/b/./c/", "/a/b/c/").into(), ("./a/b/..", "a/").into(), ("./a/b/.", "a/b/").into(), ("./a/b/./c", "a/b/c").into(), ("./a/b/./c/", "a/b/c/").into(), ("../a/b/..", "a/").into(), ("../a/b/.", "a/b/").into(), ("../a/b/./c", "a/b/c").into(), ("../a/b/./c/", "a/b/c/").into(), ("../a/b/../c", "a/c").into(), ("../a/b/./../c/", "a/c/").into(), ("../a/b/./../c", "a/c").into(), ("../a/b/./../c/", "a/c/").into(), ("../a/b/.././c/", "a/c/").into(), ("../a/b/.././c", "a/c").into(), ("../a/b/.././c/", "a/c/").into(), ("/./c/d", "/c/d").into(), ("/../c/d", "/c/d").into(), ]; for test_vector in test_vectors.iter() { let uri = Uri::parse(test_vector.uri_string()); assert!(uri.is_ok()); let mut uri = uri.unwrap(); uri.normalize(); assert_eq!( *test_vector.normalized_path(), uri.path_to_string().unwrap(), "{}", test_vector.uri_string() ); } } #[test] fn construct_normalize_and_compare_equivalent_uris() { // This was inspired by section 6.2.2 // of RFC 3986 (https://tools.ietf.org/html/rfc3986). let uri1 = Uri::parse("example://a/b/c/%7Bfoo%7D"); assert!(uri1.is_ok()); let uri1 = uri1.unwrap(); let uri2 = Uri::parse("eXAMPLE://a/./b/../b/%63/%7bfoo%7d"); assert!(uri2.is_ok()); let mut uri2 = uri2.unwrap(); assert_ne!(uri1, uri2); uri2.normalize(); assert_eq!(uri1, uri2); } #[test] fn reference_resolution() { named_tuple!( struct TestVector { base_string: &'static str, relative_reference_string: &'static str, target_string: &'static str } ); let test_vectors: &[TestVector] = &[ // These are all taken from section 5.4.1 // of RFC 3986 (https://tools.ietf.org/html/rfc3986). ("http://a/b/c/d;p?q", "g:h", "g:h").into(), ("http://a/b/c/d;p?q", "g", "http://a/b/c/g").into(), ("http://a/b/c/d;p?q", "./g", "http://a/b/c/g").into(), ("http://a/b/c/d;p?q", "g/", "http://a/b/c/g/").into(), ("http://a/b/c/d;p?q", "//g", "http://g").into(), ("http://a/b/c/d;p?q", "?y", "http://a/b/c/d;p?y").into(), ("http://a/b/c/d;p?q", "g?y", "http://a/b/c/g?y").into(), ("http://a/b/c/d;p?q", "#s", "http://a/b/c/d;p?q#s").into(), ("http://a/b/c/d;p?q", "g#s", "http://a/b/c/g#s").into(), ("http://a/b/c/d;p?q", "g?y#s", "http://a/b/c/g?y#s").into(), ("http://a/b/c/d;p?q", ";x", "http://a/b/c/;x").into(), ("http://a/b/c/d;p?q", "g;x", "http://a/b/c/g;x").into(), ("http://a/b/c/d;p?q", "g;x?y#s", "http://a/b/c/g;x?y#s").into(), ("http://a/b/c/d;p?q", "", "http://a/b/c/d;p?q").into(), ("http://a/b/c/d;p?q", ".", "http://a/b/c/").into(), ("http://a/b/c/d;p?q", "./", "http://a/b/c/").into(), ("http://a/b/c/d;p?q", "..", "http://a/b/").into(), ("http://a/b/c/d;p?q", "../", "http://a/b/").into(), ("http://a/b/c/d;p?q", "../g", "http://a/b/g").into(), ("http://a/b/c/d;p?q", "../..", "http://a").into(), ("http://a/b/c/d;p?q", "../../", "http://a").into(), ("http://a/b/c/d;p?q", "../../g", "http://a/g").into(), // Here are some examples of our own. ("http://example.com", "foo", "http://example.com/foo").into(), ("http://example.com/", "foo", "http://example.com/foo").into(), ("http://example.com", "foo/", "http://example.com/foo/").into(), ("http://example.com/", "foo/", "http://example.com/foo/").into(), ("http://example.com", "/foo", "http://example.com/foo").into(), ("http://example.com/", "/foo", "http://example.com/foo").into(), ("http://example.com", "/foo/", "http://example.com/foo/").into(), ("http://example.com/", "/foo/", "http://example.com/foo/").into(), ("http://example.com/", "?foo", "http://example.com/?foo").into(), ("http://example.com/", "#foo", "http://example.com/#foo").into(), ]; for test_vector in test_vectors { let base_uri = Uri::parse(test_vector.base_string()).unwrap(); let relative_reference_uri = Uri::parse(test_vector.relative_reference_string()).unwrap(); let expected_target_uri = Uri::parse(test_vector.target_string()).unwrap(); let actual_target_uri = dbg!(base_uri.resolve(&relative_reference_uri)); assert_eq!(expected_target_uri, actual_target_uri); } } #[test] fn empty_path_in_uri_with_authority_is_equivalent_to_slash_only_path() { let uri1 = Uri::parse("http://example.com"); assert!(uri1.is_ok()); let uri1 = uri1.unwrap(); let uri2 = Uri::parse("http://example.com/"); assert!(uri2.is_ok()); let uri2 = uri2.unwrap(); assert_eq!(uri1, uri2); let uri1 = Uri::parse("//example.com"); assert!(uri1.is_ok()); let uri1 = uri1.unwrap(); let uri2 = Uri::parse("//example.com/"); assert!(uri2.is_ok()); let uri2 = uri2.unwrap(); assert_eq!(uri1, uri2); } #[test] // NOTE: `clippy::too_many_arguments` lint has to be disabled at the // test level because it's triggered inside the `named_tuple!` macro // expansion. #[allow(clippy::too_many_arguments)] fn generate_string() { named_tuple!( struct TestVector { scheme: Option<&'static str>, userinfo: Option<&'static str>, host: Option<&'static str>, port: Option, path: &'static str, query: Option<&'static str>, fragment: Option<&'static str>, expected_uri_string: &'static str } ); let test_vectors: &[TestVector] = &[ // general test vectors // scheme userinfo host port path query fragment expected_uri_string (Some("http"), Some("bob"), Some("www.example.com"), Some(8080), "/abc/def", Some("foobar"), Some("ch2"), "http://bob@www.example.com:8080/abc/def?foobar#ch2").into(), (Some("http"), Some("bob"), Some("www.example.com"), Some(0), "", Some("foobar"), Some("ch2"), "http://bob@www.example.com:0?foobar#ch2").into(), (Some("http"), Some("bob"), Some("www.example.com"), Some(0), "", Some("foobar"), Some(""), "http://bob@www.example.com:0?foobar#").into(), (None, None, Some("example.com"), None, "", Some("bar"), None, "//example.com?bar").into(), (None, None, Some("example.com"), None, "", Some(""), None, "//example.com?").into(), (None, None, Some("example.com"), None, "", None, None, "//example.com").into(), (None, None, Some("example.com"), None, "/", None, None, "//example.com/").into(), (None, None, Some("example.com"), None, "/xyz", None, None, "//example.com/xyz").into(), (None, None, Some("example.com"), None, "/xyz/", None, None, "//example.com/xyz/").into(), (None, None, None, None, "/", None, None, "/").into(), (None, None, None, None, "/xyz", None, None, "/xyz").into(), (None, None, None, None, "/xyz/", None, None, "/xyz/").into(), (None, None, None, None, "", None, None, "").into(), (None, None, None, None, "xyz", None, None, "xyz").into(), (None, None, None, None, "xyz/", None, None, "xyz/").into(), (None, None, None, None, "", Some("bar"), None, "?bar").into(), (Some("http"), None, None, None, "", Some("bar"), None, "http:?bar").into(), (Some("http"), None, None, None, "", None, None, "http:").into(), (Some("http"), None, Some("::1"), None, "", None, None, "http://[::1]").into(), (Some("http"), None, Some("::1.2.3.4"), None, "", None, None, "http://[::1.2.3.4]").into(), (Some("http"), None, Some("1.2.3.4"), None, "", None, None, "http://1.2.3.4").into(), (None, None, None, None, "", None, None, "").into(), (Some("http"), Some("bob"), None, None, "", Some("foobar"), None, "http://bob@?foobar").into(), (None, Some("bob"), None, None, "", Some("foobar"), None, "//bob@?foobar").into(), (None, Some("bob"), None, None, "", None, None, "//bob@").into(), // percent-encoded character test vectors // scheme userinfo host port path query fragment expected_uri_string (Some("http"), Some("b b"), Some("www.example.com"), Some(8080), "/abc/def", Some("foobar"), Some("ch2"), "http://b%20b@www.example.com:8080/abc/def?foobar#ch2").into(), (Some("http"), Some("bob"), Some("www.e ample.com"), Some(8080), "/abc/def", Some("foobar"), Some("ch2"), "http://bob@www.e%20ample.com:8080/abc/def?foobar#ch2").into(), (Some("http"), Some("bob"), Some("www.example.com"), Some(8080), "/a c/def", Some("foobar"), Some("ch2"), "http://bob@www.example.com:8080/a%20c/def?foobar#ch2").into(), (Some("http"), Some("bob"), Some("www.example.com"), Some(8080), "/abc/def", Some("foo ar"), Some("ch2"), "http://bob@www.example.com:8080/abc/def?foo%20ar#ch2").into(), (Some("http"), Some("bob"), Some("www.example.com"), Some(8080), "/abc/def", Some("foobar"), Some("c 2"), "http://bob@www.example.com:8080/abc/def?foobar#c%202").into(), (Some("http"), Some("bob"), Some("ሴ.example.com"), Some(8080), "/abc/def", Some("foobar"), None, "http://bob@%E1%88%B4.example.com:8080/abc/def?foobar").into(), // normalization of IPv6 address hex digits // scheme userinfo host port path query fragment expected_uri_string (Some("http"), Some("bob"), Some("fFfF::1"), Some(8080), "/abc/def", Some("foobar"), Some("c 2"), "http://bob@[ffff::1]:8080/abc/def?foobar#c%202").into(), ]; for test_vector in test_vectors { let mut uri = Uri::default(); assert!(uri.set_scheme(test_vector.scheme().map(ToString::to_string)).is_ok()); if test_vector.userinfo().is_some() || test_vector.host().is_some() || test_vector.port().is_some() { let mut authority = Authority::default(); authority.set_userinfo(test_vector.userinfo().map(Into::into)); authority.set_host(test_vector.host().unwrap_or_else(|| "")); authority.set_port(*test_vector.port()); uri.set_authority(Some(authority)); } else { uri.set_authority(None); } uri.set_path_from_str(test_vector.path()); uri.set_query(test_vector.query().map(Into::into)); uri.set_fragment(test_vector.fragment().map(Into::into)); assert_eq!( *test_vector.expected_uri_string(), uri.to_string() ); } } #[test] fn fragment_empty_but_present() { let uri = Uri::parse("http://example.com#"); assert!(uri.is_ok()); let mut uri = uri.unwrap(); assert_eq!(Some(&b""[..]), uri.fragment()); assert_eq!(uri.to_string(), "http://example.com/#"); uri.set_fragment(None); assert_eq!(uri.to_string(), "http://example.com/"); assert_eq!(None, uri.fragment()); let uri = Uri::parse("http://example.com"); assert!(uri.is_ok()); let mut uri = uri.unwrap(); assert_eq!(None, uri.fragment()); uri.set_fragment(Some(vec![])); assert_eq!(Some(&b""[..]), uri.fragment()); assert_eq!(uri.to_string(), "http://example.com/#"); } #[test] fn query_empty_but_present() { let uri = Uri::parse("http://example.com?"); assert!(uri.is_ok()); let mut uri = uri.unwrap(); assert_eq!(Some(&b""[..]), uri.query()); assert_eq!(uri.to_string(), "http://example.com/?"); uri.set_query(None); assert_eq!(uri.to_string(), "http://example.com/"); assert_eq!(None, uri.query()); let uri = Uri::parse("http://example.com"); assert!(uri.is_ok()); let mut uri = uri.unwrap(); assert_eq!(None, uri.query()); uri.set_query(Some(vec![])); assert_eq!(Some(&b""[..]), uri.query()); assert_eq!(uri.to_string(), "http://example.com/?"); } #[test] fn make_a_copy() { let mut uri1 = Uri::parse("http://www.example.com/foo.txt").unwrap(); let mut uri2 = uri1.clone(); uri1.set_query(Some(b"bar".to_vec())); uri2.set_fragment(Some(b"page2".to_vec())); let mut uri2_new_auth = uri2.authority().unwrap().clone(); uri2_new_auth.set_host("example.com"); uri2.set_authority(Some(uri2_new_auth)); assert_eq!(uri1.to_string(), "http://www.example.com/foo.txt?bar"); assert_eq!(uri2.to_string(), "http://example.com/foo.txt#page2"); } #[test] fn clear_query() { let mut uri = Uri::parse("http://www.example.com/?foo=bar").unwrap(); uri.set_query(None); assert_eq!(uri.to_string(), "http://www.example.com/"); assert_eq!(None, uri.query()); } #[test] fn percent_encode_plus_in_queries() { // Although RFC 3986 doesn't say anything about '+', some web services // treat it the same as ' ' due to how HTML originally defined how // to encode the query portion of a URL // (see https://stackoverflow.com/questions/2678551/when-to-encode-space-to-plus-or-20). // // To avoid issues with these web services, make sure '+' is // percent-encoded in a URI when the URI is encoded. let mut uri = Uri::default(); uri.set_query(Some(b"foo+bar".to_vec())); assert_eq!(uri.to_string(), "?foo%2Bbar"); } #[test] fn percent_encode_characters_with_two_digits_always() { for ci in 0_u8..31_u8 { let mut uri = Uri::default(); uri.set_query(Some(vec![ci])); assert_eq!( uri.to_string(), format!("?%{:02X}", ci) ); } } #[test] fn set_illegal_schemes() { let test_vectors = [ "ab_de", "ab/de", "ab:de", "", "&", "foo&bar", ]; for test_vector in &test_vectors { let mut uri = Uri::default(); assert!(uri.set_scheme(Some((*test_vector).to_string())).is_err()); } } }