// Copyright 2012 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // 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. //! Types/fns concerning URLs (see RFC 3986) #[allow(missing_doc)]; use core::prelude::*; use core::cmp::Eq; use core::io::{Reader, ReaderUtil}; use core::io; use core::hashmap::HashMap; use core::to_bytes; use core::uint; #[deriving(Clone, Eq)] struct Url { scheme: ~str, user: Option, host: ~str, port: Option<~str>, path: ~str, query: Query, fragment: Option<~str> } #[deriving(Clone, Eq)] struct UserInfo { user: ~str, pass: Option<~str> } pub type Query = ~[(~str, ~str)]; impl Url { pub fn new(scheme: ~str, user: Option, host: ~str, port: Option<~str>, path: ~str, query: Query, fragment: Option<~str>) -> Url { Url { scheme: scheme, user: user, host: host, port: port, path: path, query: query, fragment: fragment, } } } impl UserInfo { pub fn new(user: ~str, pass: Option<~str>) -> UserInfo { UserInfo { user: user, pass: pass } } } fn encode_inner(s: &str, full_url: bool) -> ~str { do io::with_str_reader(s) |rdr| { let mut out = ~""; while !rdr.eof() { let ch = rdr.read_byte() as char; match ch { // unreserved: 'A' .. 'Z' | 'a' .. 'z' | '0' .. '9' | '-' | '.' | '_' | '~' => { out.push_char(ch); } _ => { if full_url { match ch { // gen-delims: ':' | '/' | '?' | '#' | '[' | ']' | '@' | // sub-delims: '!' | '$' | '&' | '"' | '(' | ')' | '*' | '+' | ',' | ';' | '=' => { out.push_char(ch); } _ => out += fmt!("%%%X", ch as uint) } } else { out += fmt!("%%%X", ch as uint); } } } } out } } /** * Encodes a URI by replacing reserved characters with percent encoded * character sequences. * * This function is compliant with RFC 3986. */ pub fn encode(s: &str) -> ~str { encode_inner(s, true) } /** * Encodes a URI component by replacing reserved characters with percent * encoded character sequences. * * This function is compliant with RFC 3986. */ pub fn encode_component(s: &str) -> ~str { encode_inner(s, false) } fn decode_inner(s: &str, full_url: bool) -> ~str { do io::with_str_reader(s) |rdr| { let mut out = ~""; while !rdr.eof() { match rdr.read_char() { '%' => { let bytes = rdr.read_bytes(2u); let ch = uint::parse_bytes(bytes, 16u).get() as char; if full_url { // Only decode some characters: match ch { // gen-delims: ':' | '/' | '?' | '#' | '[' | ']' | '@' | // sub-delims: '!' | '$' | '&' | '"' | '(' | ')' | '*' | '+' | ',' | ';' | '=' => { out.push_char('%'); out.push_char(bytes[0u] as char); out.push_char(bytes[1u] as char); } ch => out.push_char(ch) } } else { out.push_char(ch); } } ch => out.push_char(ch) } } out } } /** * Decode a string encoded with percent encoding. * * This will only decode escape sequences generated by encode. */ pub fn decode(s: &str) -> ~str { decode_inner(s, true) } /** * Decode a string encoded with percent encoding. */ pub fn decode_component(s: &str) -> ~str { decode_inner(s, false) } fn encode_plus(s: &str) -> ~str { do io::with_str_reader(s) |rdr| { let mut out = ~""; while !rdr.eof() { let ch = rdr.read_byte() as char; match ch { 'A' .. 'Z' | 'a' .. 'z' | '0' .. '9' | '_' | '.' | '-' => { out.push_char(ch); } ' ' => out.push_char('+'), _ => out += fmt!("%%%X", ch as uint) } } out } } /** * Encode a hashmap to the 'application/x-www-form-urlencoded' media type. */ pub fn encode_form_urlencoded(m: &HashMap<~str, ~[~str]>) -> ~str { let mut out = ~""; let mut first = true; for m.each |key, values| { let key = encode_plus(*key); for values.each |value| { if first { first = false; } else { out.push_char('&'); first = false; } out += fmt!("%s=%s", key, encode_plus(*value)); } } out } /** * Decode a string encoded with the 'application/x-www-form-urlencoded' media * type into a hashmap. */ pub fn decode_form_urlencoded(s: &[u8]) -> HashMap<~str, ~[~str]> { do io::with_bytes_reader(s) |rdr| { let mut m = HashMap::new(); let mut key = ~""; let mut value = ~""; let mut parsing_key = true; while !rdr.eof() { match rdr.read_char() { '&' | ';' => { if key != ~"" && value != ~"" { let mut values = match m.pop(&key) { Some(values) => values, None => ~[], }; values.push(value); m.insert(key, values); } parsing_key = true; key = ~""; value = ~""; } '=' => parsing_key = false, ch => { let ch = match ch { '%' => { let bytes = rdr.read_bytes(2u); uint::parse_bytes(bytes, 16u).get() as char } '+' => ' ', ch => ch }; if parsing_key { key.push_char(ch) } else { value.push_char(ch) } } } } if key != ~"" && value != ~"" { let mut values = match m.pop(&key) { Some(values) => values, None => ~[], }; values.push(value); m.insert(key, values); } m } } fn split_char_first(s: &str, c: char) -> (~str, ~str) { let len = s.len(); let mut index = len; let mut mat = 0; do io::with_str_reader(s) |rdr| { let mut ch; while !rdr.eof() { ch = rdr.read_byte() as char; if ch == c { // found a match, adjust markers index = rdr.tell()-1; mat = 1; break; } } } if index+mat == len { return (s.slice(0, index).to_owned(), ~""); } else { return (s.slice(0, index).to_owned(), s.slice(index + mat, s.len()).to_owned()); } } fn userinfo_from_str(uinfo: &str) -> UserInfo { let (user, p) = split_char_first(uinfo, ':'); let pass = if p.is_empty() { None } else { Some(p) }; return UserInfo::new(user, pass); } fn userinfo_to_str(userinfo: &UserInfo) -> ~str { match userinfo.pass { Some(ref pass) => fmt!("%s:%s@", userinfo.user, *pass), None => fmt!("%s@", userinfo.user), } } fn query_from_str(rawquery: &str) -> Query { let mut query: Query = ~[]; if !rawquery.is_empty() { for rawquery.split_iter('&').advance |p| { let (k, v) = split_char_first(p, '='); query.push((decode_component(k), decode_component(v))); }; } return query; } pub fn query_to_str(query: &Query) -> ~str { let mut strvec = ~[]; for query.each |kv| { match kv { &(ref k, ref v) => { strvec.push(fmt!("%s=%s", encode_component(*k), encode_component(*v)) ); } } } return strvec.connect("&"); } // returns the scheme and the rest of the url, or a parsing error pub fn get_scheme(rawurl: &str) -> Result<(~str, ~str), ~str> { for rawurl.iter().enumerate().advance |(i,c)| { match c { 'A' .. 'Z' | 'a' .. 'z' => loop, '0' .. '9' | '+' | '-' | '.' => { if i == 0 { return Err(~"url: Scheme must begin with a letter."); } loop; } ':' => { if i == 0 { return Err(~"url: Scheme cannot be empty."); } else { return Ok((rawurl.slice(0,i).to_owned(), rawurl.slice(i+1,rawurl.len()).to_owned())); } } _ => { return Err(~"url: Invalid character in scheme."); } } }; return Err(~"url: Scheme must be terminated with a colon."); } #[deriving(Clone, Eq)] enum Input { Digit, // all digits Hex, // digits and letters a-f Unreserved // all other legal characters } // returns userinfo, host, port, and unparsed part, or an error fn get_authority(rawurl: &str) -> Result<(Option, ~str, Option<~str>, ~str), ~str> { if !rawurl.starts_with("//") { // there is no authority. return Ok((None, ~"", None, rawurl.to_str())); } enum State { Start, // starting state PassHostPort, // could be in user or port Ip6Port, // either in ipv6 host or port Ip6Host, // are in an ipv6 host InHost, // are in a host - may be ipv6, but don't know yet InPort // are in port } let len = rawurl.len(); let mut st = Start; let mut in = Digit; // most restricted, start here. let mut userinfo = None; let mut host = ~""; let mut port = None; let mut colon_count = 0; let mut (pos, begin, end) = (0, 2, len); for rawurl.iter().enumerate().advance |(i,c)| { if i < 2 { loop; } // ignore the leading // // deal with input class first match c { '0' .. '9' => (), 'A' .. 'F' | 'a' .. 'f' => { if in == Digit { in = Hex; } } 'G' .. 'Z' | 'g' .. 'z' | '-' | '.' | '_' | '~' | '%' | '&' |'\'' | '(' | ')' | '+' | '!' | '*' | ',' | ';' | '=' => { in = Unreserved; } ':' | '@' | '?' | '#' | '/' => { // separators, don't change anything } _ => { return Err(~"Illegal character in authority"); } } // now process states match c { ':' => { colon_count += 1; match st { Start => { pos = i; st = PassHostPort; } PassHostPort => { // multiple colons means ipv6 address. if in == Unreserved { return Err( ~"Illegal characters in IPv6 address."); } st = Ip6Host; } InHost => { pos = i; // can't be sure whether this is an ipv6 address or a port if in == Unreserved { return Err(~"Illegal characters in authority."); } st = Ip6Port; } Ip6Port => { if in == Unreserved { return Err(~"Illegal characters in authority."); } st = Ip6Host; } Ip6Host => { if colon_count > 7 { host = rawurl.slice(begin, i).to_owned(); pos = i; st = InPort; } } _ => { return Err(~"Invalid ':' in authority."); } } in = Digit; // reset input class } '@' => { in = Digit; // reset input class colon_count = 0; // reset count match st { Start => { let user = rawurl.slice(begin, i).to_owned(); userinfo = Some(UserInfo::new(user, None)); st = InHost; } PassHostPort => { let user = rawurl.slice(begin, pos).to_owned(); let pass = rawurl.slice(pos+1, i).to_owned(); userinfo = Some(UserInfo::new(user, Some(pass))); st = InHost; } _ => { return Err(~"Invalid '@' in authority."); } } begin = i+1; } '?' | '#' | '/' => { end = i; break; } _ => () } end = i; } let end = end; // make end immutable so it can be captured let host_is_end_plus_one: &fn() -> bool = || { end+1 == len && !['?', '#', '/'].contains(&(rawurl[end] as char)) }; // finish up match st { Start => { if host_is_end_plus_one() { host = rawurl.slice(begin, end+1).to_owned(); } else { host = rawurl.slice(begin, end).to_owned(); } } PassHostPort | Ip6Port => { if in != Digit { return Err(~"Non-digit characters in port."); } host = rawurl.slice(begin, pos).to_owned(); port = Some(rawurl.slice(pos+1, end).to_owned()); } Ip6Host | InHost => { host = rawurl.slice(begin, end).to_owned(); } InPort => { if in != Digit { return Err(~"Non-digit characters in port."); } port = Some(rawurl.slice(pos+1, end).to_owned()); } } let rest = if host_is_end_plus_one() { ~"" } else { rawurl.slice(end, len).to_owned() }; return Ok((userinfo, host, port, rest)); } // returns the path and unparsed part of url, or an error fn get_path(rawurl: &str, authority: bool) -> Result<(~str, ~str), ~str> { let len = rawurl.len(); let mut end = len; for rawurl.iter().enumerate().advance |(i,c)| { match c { 'A' .. 'Z' | 'a' .. 'z' | '0' .. '9' | '&' |'\'' | '(' | ')' | '.' | '@' | ':' | '%' | '/' | '+' | '!' | '*' | ',' | ';' | '=' | '_' | '-' => { loop; } '?' | '#' => { end = i; break; } _ => return Err(~"Invalid character in path.") } } if authority { if end != 0 && !rawurl.starts_with("/") { return Err(~"Non-empty path must begin with\ '/' in presence of authority."); } } return Ok((decode_component(rawurl.slice(0, end)), rawurl.slice(end, len).to_owned())); } // returns the parsed query and the fragment, if present fn get_query_fragment(rawurl: &str) -> Result<(Query, Option<~str>), ~str> { if !rawurl.starts_with("?") { if rawurl.starts_with("#") { let f = decode_component(rawurl.slice( 1, rawurl.len())); return Ok((~[], Some(f))); } else { return Ok((~[], None)); } } let (q, r) = split_char_first(rawurl.slice(1, rawurl.len()), '#'); let f = if r.len() != 0 { Some(decode_component(r)) } else { None }; return Ok((query_from_str(q), f)); } /** * Parse a `str` to a `url` * * # Arguments * * `rawurl` - a string representing a full url, including scheme. * * # Returns * * a `url` that contains the parsed representation of the url. * */ pub fn from_str(rawurl: &str) -> Result { // scheme let (scheme, rest) = match get_scheme(rawurl) { Ok(val) => val, Err(e) => return Err(e), }; // authority let (userinfo, host, port, rest) = match get_authority(rest) { Ok(val) => val, Err(e) => return Err(e), }; // path let has_authority = if host == ~"" { false } else { true }; let (path, rest) = match get_path(rest, has_authority) { Ok(val) => val, Err(e) => return Err(e), }; // query and fragment let (query, fragment) = match get_query_fragment(rest) { Ok(val) => val, Err(e) => return Err(e), }; Ok(Url::new(scheme, userinfo, host, port, path, query, fragment)) } impl FromStr for Url { fn from_str(s: &str) -> Option { match from_str(s) { Ok(url) => Some(url), Err(_) => None } } } /** * Format a `url` as a string * * # Arguments * * `url` - a url. * * # Returns * * a `str` that contains the formatted url. Note that this will usually * be an inverse of `from_str` but might strip out unneeded separators. * for example, "http://somehost.com?", when parsed and formatted, will * result in just "http://somehost.com". * */ pub fn to_str(url: &Url) -> ~str { let user = match url.user { Some(ref user) => userinfo_to_str(user), None => ~"", }; let authority = if url.host.is_empty() { ~"" } else { fmt!("//%s%s", user, url.host) }; let query = if url.query.is_empty() { ~"" } else { fmt!("?%s", query_to_str(&url.query)) }; let fragment = match url.fragment { Some(ref fragment) => fmt!("#%s", encode_component(*fragment)), None => ~"", }; fmt!("%s:%s%s%s%s", url.scheme, authority, url.path, query, fragment) } impl ToStr for Url { pub fn to_str(&self) -> ~str { to_str(self) } } impl IterBytes for Url { fn iter_bytes(&self, lsb0: bool, f: to_bytes::Cb) -> bool { self.to_str().iter_bytes(lsb0, f) } } // Put a few tests outside of the 'test' module so they can test the internal // functions and those functions don't need 'pub' #[test] fn test_split_char_first() { let (u,v) = split_char_first("hello, sweet world", ','); assert_eq!(u, ~"hello"); assert_eq!(v, ~" sweet world"); let (u,v) = split_char_first("hello sweet world", ','); assert_eq!(u, ~"hello sweet world"); assert_eq!(v, ~""); } #[test] fn test_get_authority() { let (u, h, p, r) = get_authority( "//user:pass@rust-lang.org/something").unwrap(); assert_eq!(u, Some(UserInfo::new(~"user", Some(~"pass")))); assert_eq!(h, ~"rust-lang.org"); assert!(p.is_none()); assert_eq!(r, ~"/something"); let (u, h, p, r) = get_authority( "//rust-lang.org:8000?something").unwrap(); assert!(u.is_none()); assert_eq!(h, ~"rust-lang.org"); assert_eq!(p, Some(~"8000")); assert_eq!(r, ~"?something"); let (u, h, p, r) = get_authority( "//rust-lang.org#blah").unwrap(); assert!(u.is_none()); assert_eq!(h, ~"rust-lang.org"); assert!(p.is_none()); assert_eq!(r, ~"#blah"); // ipv6 tests let (_, h, _, _) = get_authority( "//2001:0db8:85a3:0042:0000:8a2e:0370:7334#blah").unwrap(); assert_eq!(h, ~"2001:0db8:85a3:0042:0000:8a2e:0370:7334"); let (_, h, p, _) = get_authority( "//2001:0db8:85a3:0042:0000:8a2e:0370:7334:8000#blah").unwrap(); assert_eq!(h, ~"2001:0db8:85a3:0042:0000:8a2e:0370:7334"); assert_eq!(p, Some(~"8000")); let (u, h, p, _) = get_authority( "//us:p@2001:0db8:85a3:0042:0000:8a2e:0370:7334:8000#blah" ).unwrap(); assert_eq!(u, Some(UserInfo::new(~"us", Some(~"p")))); assert_eq!(h, ~"2001:0db8:85a3:0042:0000:8a2e:0370:7334"); assert_eq!(p, Some(~"8000")); // invalid authorities; assert!(get_authority("//user:pass@rust-lang:something").is_err()); assert!(get_authority("//user@rust-lang:something:/path").is_err()); assert!(get_authority( "//2001:0db8:85a3:0042:0000:8a2e:0370:7334:800a").is_err()); assert!(get_authority( "//2001:0db8:85a3:0042:0000:8a2e:0370:7334:8000:00").is_err()); // these parse as empty, because they don't start with '//' let (_, h, _, _) = get_authority("user:pass@rust-lang").unwrap(); assert_eq!(h, ~""); let (_, h, _, _) = get_authority("rust-lang.org").unwrap(); assert_eq!(h, ~""); } #[test] fn test_get_path() { let (p, r) = get_path("/something+%20orother", true).unwrap(); assert_eq!(p, ~"/something+ orother"); assert_eq!(r, ~""); let (p, r) = get_path("test@email.com#fragment", false).unwrap(); assert_eq!(p, ~"test@email.com"); assert_eq!(r, ~"#fragment"); let (p, r) = get_path("/gen/:addr=?q=v", false).unwrap(); assert_eq!(p, ~"/gen/:addr="); assert_eq!(r, ~"?q=v"); //failure cases assert!(get_path("something?q", true).is_err()); } #[cfg(test)] mod tests { use net_url::*; use core::hashmap::HashMap; #[test] fn test_url_parse() { let url = ~"http://user:pass@rust-lang.org/doc?s=v#something"; let up = from_str(url); let u = up.unwrap(); assert!(u.scheme == ~"http"); let userinfo = u.user.get_ref(); assert!(userinfo.user == ~"user"); assert!(userinfo.pass.get_ref() == &~"pass"); assert!(u.host == ~"rust-lang.org"); assert!(u.path == ~"/doc"); assert!(u.query == ~[(~"s", ~"v")]); assert!(u.fragment.get_ref() == &~"something"); } #[test] fn test_url_parse_host_slash() { let urlstr = ~"http://0.42.42.42/"; let url = from_str(urlstr).unwrap(); assert!(url.host == ~"0.42.42.42"); assert!(url.path == ~"/"); } #[test] fn test_url_with_underscores() { let urlstr = ~"http://dotcom.com/file_name.html"; let url = from_str(urlstr).unwrap(); assert!(url.path == ~"/file_name.html"); } #[test] fn test_url_with_dashes() { let urlstr = ~"http://dotcom.com/file-name.html"; let url = from_str(urlstr).unwrap(); assert!(url.path == ~"/file-name.html"); } #[test] fn test_no_scheme() { assert!(get_scheme("noschemehere.html").is_err()); } #[test] fn test_invalid_scheme_errors() { assert!(from_str("99://something").is_err()); assert!(from_str("://something").is_err()); } #[test] fn test_full_url_parse_and_format() { let url = ~"http://user:pass@rust-lang.org/doc?s=v#something"; assert_eq!(from_str(url).unwrap().to_str(), url); } #[test] fn test_userless_url_parse_and_format() { let url = ~"http://rust-lang.org/doc?s=v#something"; assert_eq!(from_str(url).unwrap().to_str(), url); } #[test] fn test_queryless_url_parse_and_format() { let url = ~"http://user:pass@rust-lang.org/doc#something"; assert_eq!(from_str(url).unwrap().to_str(), url); } #[test] fn test_empty_query_url_parse_and_format() { let url = ~"http://user:pass@rust-lang.org/doc?#something"; let should_be = ~"http://user:pass@rust-lang.org/doc#something"; assert_eq!(from_str(url).unwrap().to_str(), should_be); } #[test] fn test_fragmentless_url_parse_and_format() { let url = ~"http://user:pass@rust-lang.org/doc?q=v"; assert_eq!(from_str(url).unwrap().to_str(), url); } #[test] fn test_minimal_url_parse_and_format() { let url = ~"http://rust-lang.org/doc"; assert_eq!(from_str(url).unwrap().to_str(), url); } #[test] fn test_scheme_host_only_url_parse_and_format() { let url = ~"http://rust-lang.org"; assert_eq!(from_str(url).unwrap().to_str(), url); } #[test] fn test_pathless_url_parse_and_format() { let url = ~"http://user:pass@rust-lang.org?q=v#something"; assert_eq!(from_str(url).unwrap().to_str(), url); } #[test] fn test_scheme_host_fragment_only_url_parse_and_format() { let url = ~"http://rust-lang.org#something"; assert_eq!(from_str(url).unwrap().to_str(), url); } #[test] fn test_url_component_encoding() { let url = ~"http://rust-lang.org/doc%20uments?ba%25d%20=%23%26%2B"; let u = from_str(url).unwrap(); assert!(u.path == ~"/doc uments"); assert!(u.query == ~[(~"ba%d ", ~"#&+")]); } #[test] fn test_url_without_authority() { let url = ~"mailto:test@email.com"; assert_eq!(from_str(url).unwrap().to_str(), url); } #[test] fn test_encode() { assert_eq!(encode(""), ~""); assert_eq!(encode("http://example.com"), ~"http://example.com"); assert_eq!(encode("foo bar% baz"), ~"foo%20bar%25%20baz"); assert_eq!(encode(" "), ~"%20"); assert_eq!(encode("!"), ~"!"); assert_eq!(encode("\""), ~"\""); assert_eq!(encode("#"), ~"#"); assert_eq!(encode("$"), ~"$"); assert_eq!(encode("%"), ~"%25"); assert_eq!(encode("&"), ~"&"); assert_eq!(encode("'"), ~"%27"); assert_eq!(encode("("), ~"("); assert_eq!(encode(")"), ~")"); assert_eq!(encode("*"), ~"*"); assert_eq!(encode("+"), ~"+"); assert_eq!(encode(","), ~","); assert_eq!(encode("/"), ~"/"); assert_eq!(encode(":"), ~":"); assert_eq!(encode(";"), ~";"); assert_eq!(encode("="), ~"="); assert_eq!(encode("?"), ~"?"); assert_eq!(encode("@"), ~"@"); assert_eq!(encode("["), ~"["); assert_eq!(encode("]"), ~"]"); } #[test] fn test_encode_component() { assert_eq!(encode_component(""), ~""); assert!(encode_component("http://example.com") == ~"http%3A%2F%2Fexample.com"); assert!(encode_component("foo bar% baz") == ~"foo%20bar%25%20baz"); assert_eq!(encode_component(" "), ~"%20"); assert_eq!(encode_component("!"), ~"%21"); assert_eq!(encode_component("#"), ~"%23"); assert_eq!(encode_component("$"), ~"%24"); assert_eq!(encode_component("%"), ~"%25"); assert_eq!(encode_component("&"), ~"%26"); assert_eq!(encode_component("'"), ~"%27"); assert_eq!(encode_component("("), ~"%28"); assert_eq!(encode_component(")"), ~"%29"); assert_eq!(encode_component("*"), ~"%2A"); assert_eq!(encode_component("+"), ~"%2B"); assert_eq!(encode_component(","), ~"%2C"); assert_eq!(encode_component("/"), ~"%2F"); assert_eq!(encode_component(":"), ~"%3A"); assert_eq!(encode_component(";"), ~"%3B"); assert_eq!(encode_component("="), ~"%3D"); assert_eq!(encode_component("?"), ~"%3F"); assert_eq!(encode_component("@"), ~"%40"); assert_eq!(encode_component("["), ~"%5B"); assert_eq!(encode_component("]"), ~"%5D"); } #[test] fn test_decode() { assert_eq!(decode(""), ~""); assert_eq!(decode("abc/def 123"), ~"abc/def 123"); assert_eq!(decode("abc%2Fdef%20123"), ~"abc%2Fdef 123"); assert_eq!(decode("%20"), ~" "); assert_eq!(decode("%21"), ~"%21"); assert_eq!(decode("%22"), ~"%22"); assert_eq!(decode("%23"), ~"%23"); assert_eq!(decode("%24"), ~"%24"); assert_eq!(decode("%25"), ~"%"); assert_eq!(decode("%26"), ~"%26"); assert_eq!(decode("%27"), ~"'"); assert_eq!(decode("%28"), ~"%28"); assert_eq!(decode("%29"), ~"%29"); assert_eq!(decode("%2A"), ~"%2A"); assert_eq!(decode("%2B"), ~"%2B"); assert_eq!(decode("%2C"), ~"%2C"); assert_eq!(decode("%2F"), ~"%2F"); assert_eq!(decode("%3A"), ~"%3A"); assert_eq!(decode("%3B"), ~"%3B"); assert_eq!(decode("%3D"), ~"%3D"); assert_eq!(decode("%3F"), ~"%3F"); assert_eq!(decode("%40"), ~"%40"); assert_eq!(decode("%5B"), ~"%5B"); assert_eq!(decode("%5D"), ~"%5D"); } #[test] fn test_decode_component() { assert_eq!(decode_component(""), ~""); assert_eq!(decode_component("abc/def 123"), ~"abc/def 123"); assert_eq!(decode_component("abc%2Fdef%20123"), ~"abc/def 123"); assert_eq!(decode_component("%20"), ~" "); assert_eq!(decode_component("%21"), ~"!"); assert_eq!(decode_component("%22"), ~"\""); assert_eq!(decode_component("%23"), ~"#"); assert_eq!(decode_component("%24"), ~"$"); assert_eq!(decode_component("%25"), ~"%"); assert_eq!(decode_component("%26"), ~"&"); assert_eq!(decode_component("%27"), ~"'"); assert_eq!(decode_component("%28"), ~"("); assert_eq!(decode_component("%29"), ~")"); assert_eq!(decode_component("%2A"), ~"*"); assert_eq!(decode_component("%2B"), ~"+"); assert_eq!(decode_component("%2C"), ~","); assert_eq!(decode_component("%2F"), ~"/"); assert_eq!(decode_component("%3A"), ~":"); assert_eq!(decode_component("%3B"), ~";"); assert_eq!(decode_component("%3D"), ~"="); assert_eq!(decode_component("%3F"), ~"?"); assert_eq!(decode_component("%40"), ~"@"); assert_eq!(decode_component("%5B"), ~"["); assert_eq!(decode_component("%5D"), ~"]"); } #[test] fn test_encode_form_urlencoded() { let mut m = HashMap::new(); assert_eq!(encode_form_urlencoded(&m), ~""); m.insert(~"", ~[]); m.insert(~"foo", ~[]); assert_eq!(encode_form_urlencoded(&m), ~""); let mut m = HashMap::new(); m.insert(~"foo", ~[~"bar", ~"123"]); assert_eq!(encode_form_urlencoded(&m), ~"foo=bar&foo=123"); let mut m = HashMap::new(); m.insert(~"foo bar", ~[~"abc", ~"12 = 34"]); assert!(encode_form_urlencoded(&m) == ~"foo+bar=abc&foo+bar=12+%3D+34"); } #[test] fn test_decode_form_urlencoded() { // FIXME #4449: Commented out because this causes an ICE, but only // on FreeBSD /* assert_eq!(decode_form_urlencoded([]).len(), 0); let s = "a=1&foo+bar=abc&foo+bar=12+%3D+34".as_bytes(); let form = decode_form_urlencoded(s); assert_eq!(form.len(), 2); assert_eq!(form.get_ref(&~"a"), &~[~"1"]); assert_eq!(form.get_ref(&~"foo bar"), &~[~"abc", ~"12 = 34"]); */ } }