//! Types/fns concerning URLs (see RFC 3986) #[forbid(deprecated_mode)]; #[forbid(deprecated_pattern)]; use core::cmp::Eq; use map::{HashMap, str_hash}; use io::{Reader, ReaderUtil}; use dvec::DVec; use from_str::FromStr; use result::{Err, Ok}; use to_str::ToStr; use to_bytes::IterBytes; export Url, Query; export from_str, to_str; export get_scheme; export query_to_str; export encode, decode; export encode_component, decode_component; export encode_form_urlencoded, decode_form_urlencoded; struct Url { scheme: ~str, user: Option, host: ~str, port: Option<~str>, path: ~str, query: Query, fragment: Option<~str> } type UserInfo = { user: ~str, pass: Option<~str> }; type Query = ~[(~str, ~str)]; fn Url(+scheme: ~str, +user: Option, +host: ~str, +port: Option<~str>, +path: ~str, +query: Query, +fragment: Option<~str>) -> Url { Url { scheme: move scheme, user: move user, host: move host, port: move port, path: move path, query: move query, fragment: move fragment } } fn UserInfo(+user: ~str, +pass: Option<~str>) -> UserInfo { {user: move user, pass: move 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' | '-' | '.' | '_' | '~' => { str::push_char(out, ch); } _ => { if full_url { match ch { // gen-delims: ':' | '/' | '?' | '#' | '[' | ']' | '@' | // sub-delims: '!' | '$' | '&' | '"' | '(' | ')' | '*' | '+' | ',' | ';' | '=' => { str::push_char(out, ch); } _ => out += #fmt("%%%X", ch as uint) } } else { out += #fmt("%%%X", ch as uint); } } } } out } } /** * Encodes a URI by replacing reserved characters with percent encoded * character sequences. * * This function is compliant with RFC 3986. */ fn encode(s: &str) -> ~str { encode_inner(s, true) } /** * Encodes a URI component by replacing reserved characters with percent * encoded character sequences. * * This function is compliant with RFC 3986. */ fn encode_component(s: &str) -> ~str { encode_inner(s, false) } fn decode_inner(s: &str, full_url: bool) -> ~str { do io::with_str_reader(s) |rdr| { let mut out = ~""; while !rdr.eof() { match rdr.read_char() { '%' => { let bytes = rdr.read_bytes(2u); let ch = uint::parse_bytes(bytes, 16u).get() as char; if full_url { // Only decode some characters: match ch { // gen-delims: ':' | '/' | '?' | '#' | '[' | ']' | '@' | // sub-delims: '!' | '$' | '&' | '"' | '(' | ')' | '*' | '+' | ',' | ';' | '=' => { str::push_char(out, '%'); str::push_char(out, bytes[0u] as char); str::push_char(out, bytes[1u] as char); } ch => str::push_char(out, ch) } } else { str::push_char(out, ch); } } ch => str::push_char(out, ch) } } out } } /** * Decode a string encoded with percent encoding. * * This will only decode escape sequences generated by encode_uri. */ fn decode(s: &str) -> ~str { decode_inner(s, true) } /** * Decode a string encoded with percent encoding. */ 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' | '_' | '.' | '-' => { str::push_char(out, ch); } ' ' => str::push_char(out, '+'), _ => out += #fmt("%%%X", ch as uint) } } out } } /** * Encode a hashmap to the 'application/x-www-form-urlencoded' media type. */ fn encode_form_urlencoded(m: HashMap<~str, @DVec<@~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 { str::push_char(out, '&'); 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. */ fn decode_form_urlencoded(s: ~[u8]) -> map::HashMap<~str, @dvec::DVec<@~str>> { do io::with_bytes_reader(s) |rdr| { let m = str_hash(); let mut key = ~""; let mut value = ~""; let mut parsing_key = true; while !rdr.eof() { match rdr.read_char() { '&' | ';' => { if key != ~"" && value != ~"" { let values = match m.find(key) { Some(values) => values, None => { let values = @DVec(); m.insert(key, values); values } }; (*values).push(@value) } parsing_key = true; key = ~""; value = ~""; } '=' => parsing_key = false, ch => { let ch = match ch { '%' => { uint::parse_bytes(rdr.read_bytes(2u), 16u).get() as char } '+' => ' ', ch => ch }; if parsing_key { str::push_char(key, ch) } else { str::push_char(value, ch) } } } } if key != ~"" && value != ~"" { let values = match m.find(key) { Some(values) => values, None => { let values = @DVec(); m.insert(key, values); values } }; (*values).push(@value) } m } } fn split_char_first(s: &str, c: char) -> (~str, ~str) { let len = str::len(s); let mut index = len; let mut mat = 0; do io::with_str_reader(s) |rdr| { let mut ch : char; 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 (str::slice(s, 0, index), ~""); } else { return (str::slice(s, 0, index), str::slice(s, index + mat, str::len(s))); } } fn userinfo_from_str(uinfo: &str) -> UserInfo { let (user, p) = split_char_first(uinfo, ':'); let pass = if str::len(p) == 0 { option::None } else { option::Some(p) }; return UserInfo(user, pass); } fn userinfo_to_str(+userinfo: UserInfo) -> ~str { if option::is_some(userinfo.pass) { return str::concat(~[copy userinfo.user, ~":", option::unwrap(copy userinfo.pass), ~"@"]); } else { return str::concat(~[copy userinfo.user, ~"@"]); } } impl UserInfo : Eq { pure fn eq(&&other: UserInfo) -> bool { self.user == other.user && self.pass == other.pass } pure fn ne(&&other: UserInfo) -> bool { !self.eq(other) } } fn query_from_str(rawquery: &str) -> Query { let mut query: Query = ~[]; if str::len(rawquery) != 0 { for str::split_char(rawquery, '&').each |p| { let (k, v) = split_char_first(p, '='); vec::push(query, (decode_component(k), decode_component(v))); }; } return query; } fn query_to_str(+query: Query) -> ~str { let mut strvec = ~[]; for query.each |kv| { let (k, v) = copy kv; strvec += ~[#fmt("%s=%s", encode_component(k), encode_component(v))]; }; return str::connect(strvec, ~"&"); } // returns the scheme and the rest of the url, or a parsing error fn get_scheme(rawurl: &str) -> result::Result<(~str, ~str), @~str> { for str::each_chari(rawurl) |i,c| { match c { 'A' .. 'Z' | 'a' .. 'z' => loop, '0' .. '9' | '+' | '-' | '.' => { if i == 0 { return result::Err(@~"url: Scheme must begin with a letter."); } loop; } ':' => { if i == 0 { return result::Err(@~"url: Scheme cannot be empty."); } else { return result::Ok((rawurl.slice(0,i), rawurl.slice(i+1,str::len(rawurl)))); } } _ => { return result::Err(@~"url: Invalid character in scheme."); } } }; return result::Err(@~"url: Scheme must be terminated with a colon."); } enum Input { Digit, // all digits Hex, // digits and letters a-f Unreserved // all other legal characters } impl Input: Eq { pure fn eq(&&other: Input) -> bool { match (self, other) { (Digit, Digit) => true, (Hex, Hex) => true, (Unreserved, Unreserved) => true, (Digit, _) => false, (Hex, _) => false, (Unreserved, _) => false } } pure fn ne(&&other: Input) -> bool { !self.eq(other) } } // returns userinfo, host, port, and unparsed part, or an error fn get_authority(rawurl: &str) -> result::Result<(Option, ~str, Option<~str>, ~str), @~str> { if !str::starts_with(rawurl, ~"//") { // there is no authority. return result::Ok((option::None, ~"", option::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 = str::len(rawurl); let mut st : State = Start; let mut in : Input = Digit; // most restricted, start here. let mut userinfo : Option = option::None; let mut host : ~str = ~""; let mut port : option::Option<~str> = option::None; let mut colon_count = 0; let mut pos : uint = 0, begin : uint = 2, end : uint = len; for str::each_chari(rawurl) |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 result::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 result::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 result::Err(@~"Illegal characters in authority."); } st = Ip6Port; } Ip6Port => { if in == Unreserved { return result::Err(@~"Illegal characters in authority."); } st = Ip6Host; } Ip6Host => { if colon_count > 7 { host = str::slice(rawurl, begin, i); pos = i; st = InPort; } } _ => { return result::Err(@~"Invalid ':' in authority."); } } in = Digit; // reset input class } '@' => { in = Digit; // reset input class colon_count = 0; // reset count match st { Start => { let user = str::slice(rawurl, begin, i); userinfo = option::Some({user : user, pass: option::None}); st = InHost; } PassHostPort => { let user = str::slice(rawurl, begin, pos); let pass = str::slice(rawurl, pos+1, i); userinfo = option::Some({user: user, pass: option::Some(pass)}); st = InHost; } _ => { return result::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 = str::slice(rawurl, begin, end+1); } else { host = str::slice(rawurl, begin, end); } } PassHostPort | Ip6Port => { if in != Digit { return result::Err(@~"Non-digit characters in port."); } host = str::slice(rawurl, begin, pos); port = option::Some(str::slice(rawurl, pos+1, end)); } Ip6Host | InHost => { host = str::slice(rawurl, begin, end); } InPort => { if in != Digit { return result::Err(@~"Non-digit characters in port."); } port = option::Some(str::slice(rawurl, pos+1, end)); } } let rest = if host_is_end_plus_one() { ~"" } else { str::slice(rawurl, end, len) }; return result::Ok((userinfo, host, port, rest)); } // returns the path and unparsed part of url, or an error fn get_path(rawurl: &str, authority : bool) -> result::Result<(~str, ~str), @~str> { let len = str::len(rawurl); let mut end = len; for str::each_chari(rawurl) |i,c| { match c { 'A' .. 'Z' | 'a' .. 'z' | '0' .. '9' | '&' |'\'' | '(' | ')' | '.' | '@' | ':' | '%' | '/' | '+' | '!' | '*' | ',' | ';' | '=' | '_' | '-' => { loop; } '?' | '#' => { end = i; break; } _ => return result::Err(@~"Invalid character in path.") } } if authority { if end != 0 && !str::starts_with(rawurl, ~"/") { return result::Err(@~"Non-empty path must begin with\ '/' in presence of authority."); } } return result::Ok((decode_component(str::slice(rawurl, 0, end)), str::slice(rawurl, end, len))); } // returns the parsed query and the fragment, if present fn get_query_fragment(rawurl: &str) -> result::Result<(Query, Option<~str>), @~str> { if !str::starts_with(rawurl, ~"?") { if str::starts_with(rawurl, ~"#") { let f = decode_component(str::slice(rawurl, 1, str::len(rawurl))); return result::Ok((~[], option::Some(f))); } else { return result::Ok((~[], option::None)); } } let (q, r) = split_char_first(str::slice(rawurl, 1, str::len(rawurl)), '#'); let f = if str::len(r) != 0 { option::Some(decode_component(r)) } else { option::None }; return result::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. * */ fn from_str(rawurl: &str) -> result::Result { // scheme let mut schm = get_scheme(rawurl); if result::is_err(schm) { return result::Err(copy *result::get_err(schm)); } let (scheme, rest) = result::unwrap(schm); // authority let mut auth = get_authority(rest); if result::is_err(auth) { return result::Err(copy *result::get_err(auth)); } let (userinfo, host, port, rest) = result::unwrap(auth); // path let has_authority = if host == ~"" { false } else { true }; let mut pth = get_path(rest, has_authority); if result::is_err(pth) { return result::Err(copy *result::get_err(pth)); } let (path, rest) = result::unwrap(pth); // query and fragment let mut qry = get_query_fragment(rest); if result::is_err(qry) { return result::Err(copy *result::get_err(qry)); } let (query, fragment) = result::unwrap(qry); return result::Ok(Url(scheme, userinfo, host, port, path, query, fragment)); } impl Url : FromStr { static 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". * */ fn to_str(+url: Url) -> ~str { let user = if option::is_some(url.user) { userinfo_to_str(option::unwrap(copy url.user)) } else { ~"" }; let authority = if str::len(url.host) != 0 { str::concat(~[~"//", user, copy url.host]) } else { ~"" }; let query = if url.query.len() == 0 { ~"" } else { str::concat(~[~"?", query_to_str(url.query)]) }; let fragment = if option::is_some(url.fragment) { str::concat(~[~"#", encode_component( option::unwrap(copy url.fragment))]) } else { ~"" }; return str::concat(~[copy url.scheme, ~":", authority, copy url.path, query, fragment]); } impl Url: to_str::ToStr { fn to_str() -> ~str { to_str(self) } } impl Url: Eq { pure fn eq(&&other: Url) -> bool { self.scheme == other.scheme && self.user == other.user && self.host == other.host && self.port == other.port && self.path == other.path && self.query == other.query && self.fragment == other.fragment } pure fn ne(&&other: Url) -> bool { !self.eq(other) } } impl Url: IterBytes { pure fn iter_bytes(lsb0: bool, f: to_bytes::Cb) { unsafe { self.to_str() }.iter_bytes(lsb0, f) } } #[cfg(test)] mod tests { #[test] fn test_split_char_first() { let (u,v) = split_char_first(~"hello, sweet world", ','); assert u == ~"hello"; assert v == ~" sweet world"; let (u,v) = split_char_first(~"hello sweet world", ','); assert u == ~"hello sweet world"; assert v == ~""; } #[test] fn test_get_authority() { let (u, h, p, r) = result::unwrap(get_authority( ~"//user:pass@rust-lang.org/something")); assert u == option::Some({user: ~"user", pass: option::Some(~"pass")}); assert h == ~"rust-lang.org"; assert option::is_none(p); assert r == ~"/something"; let (u, h, p, r) = result::unwrap(get_authority( ~"//rust-lang.org:8000?something")); assert option::is_none(u); assert h == ~"rust-lang.org"; assert p == option::Some(~"8000"); assert r == ~"?something"; let (u, h, p, r) = result::unwrap(get_authority( ~"//rust-lang.org#blah")); assert option::is_none(u); assert h == ~"rust-lang.org"; assert option::is_none(p); assert r == ~"#blah"; // ipv6 tests let (_, h, _, _) = result::unwrap(get_authority( ~"//2001:0db8:85a3:0042:0000:8a2e:0370:7334#blah")); assert h == ~"2001:0db8:85a3:0042:0000:8a2e:0370:7334"; let (_, h, p, _) = result::unwrap(get_authority( ~"//2001:0db8:85a3:0042:0000:8a2e:0370:7334:8000#blah")); assert h == ~"2001:0db8:85a3:0042:0000:8a2e:0370:7334"; assert p == option::Some(~"8000"); let (u, h, p, _) = result::unwrap(get_authority( ~"//us:p@2001:0db8:85a3:0042:0000:8a2e:0370:7334:8000#blah")); assert u == option::Some({user: ~"us", pass : option::Some(~"p")}); assert h == ~"2001:0db8:85a3:0042:0000:8a2e:0370:7334"; assert p == option::Some(~"8000"); // invalid authorities; assert result::is_err(get_authority( ~"//user:pass@rust-lang:something")); assert result::is_err(get_authority( ~"//user@rust-lang:something:/path")); assert result::is_err(get_authority( ~"//2001:0db8:85a3:0042:0000:8a2e:0370:7334:800a")); assert result::is_err(get_authority( ~"//2001:0db8:85a3:0042:0000:8a2e:0370:7334:8000:00")); // these parse as empty, because they don't start with '//' let (_, h, _, _) = result::unwrap( get_authority(~"user:pass@rust-lang")); assert h == ~""; let (_, h, _, _) = result::unwrap( get_authority(~"rust-lang.org")); assert h == ~""; } #[test] fn test_get_path() { let (p, r) = result::unwrap(get_path( ~"/something+%20orother", true)); assert p == ~"/something+ orother"; assert r == ~""; let (p, r) = result::unwrap(get_path( ~"test@email.com#fragment", false)); assert p == ~"test@email.com"; assert r == ~"#fragment"; let (p, r) = result::unwrap(get_path(~"/gen/:addr=?q=v", false)); assert p == ~"/gen/:addr="; assert r == ~"?q=v"; //failure cases assert result::is_err(get_path(~"something?q", true)); } #[test] fn test_url_parse() { let url = ~"http://user:pass@rust-lang.org/doc?s=v#something"; let up = from_str(url); let u = result::unwrap(up); assert u.scheme == ~"http"; assert option::unwrap(copy u.user).user == ~"user"; assert option::unwrap(copy option::unwrap(copy u.user).pass) == ~"pass"; assert u.host == ~"rust-lang.org"; assert u.path == ~"/doc"; assert u.query.find(|kv| kv.first() == ~"s").get().second() == ~"v"; assert option::unwrap(copy u.fragment) == ~"something"; } #[test] fn test_url_parse_host_slash() { let urlstr = ~"http://0.42.42.42/"; let url = from_str(urlstr).get(); #debug("url: %?", url); 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).get(); #debug("url: %?", url); 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).get(); #debug("url: %?", url); assert url.path == ~"/file-name.html"; } #[test] fn test_no_scheme() { assert result::is_err(get_scheme(~"noschemehere.html")); } #[test] fn test_invalid_scheme_errors() { assert result::is_err(from_str(~"99://something")); assert result::is_err(from_str(~"://something")); } #[test] fn test_full_url_parse_and_format() { let url = ~"http://user:pass@rust-lang.org/doc?s=v#something"; assert to_str(result::unwrap(from_str(url))) == url; } #[test] fn test_userless_url_parse_and_format() { let url = ~"http://rust-lang.org/doc?s=v#something"; assert to_str(result::unwrap(from_str(url))) == url; } #[test] fn test_queryless_url_parse_and_format() { let url = ~"http://user:pass@rust-lang.org/doc#something"; assert to_str(result::unwrap(from_str(url))) == 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 to_str(result::unwrap(from_str(url))) == should_be; } #[test] fn test_fragmentless_url_parse_and_format() { let url = ~"http://user:pass@rust-lang.org/doc?q=v"; assert to_str(result::unwrap(from_str(url))) == url; } #[test] fn test_minimal_url_parse_and_format() { let url = ~"http://rust-lang.org/doc"; assert to_str(result::unwrap(from_str(url))) == url; } #[test] fn test_scheme_host_only_url_parse_and_format() { let url = ~"http://rust-lang.org"; assert to_str(result::unwrap(from_str(url))) == url; } #[test] fn test_pathless_url_parse_and_format() { let url = ~"http://user:pass@rust-lang.org?q=v#something"; assert to_str(result::unwrap(from_str(url))) == url; } #[test] fn test_scheme_host_fragment_only_url_parse_and_format() { let url = ~"http://rust-lang.org#something"; assert to_str(result::unwrap(from_str(url))) == url; } #[test] fn test_url_component_encoding() { let url = ~"http://rust-lang.org/doc%20uments?ba%25d%20=%23%26%2B"; let u = result::unwrap(from_str(url)); assert u.path == ~"/doc uments"; assert u.query.find(|kv| kv.first() == ~"ba%d ") .get().second() == ~"#&+"; } #[test] fn test_url_without_authority() { let url = ~"mailto:test@email.com"; assert to_str(result::unwrap(from_str(url))) == url; } #[test] fn test_encode() { assert encode("") == ~""; assert encode("http://example.com") == ~"http://example.com"; assert encode("foo bar% baz") == ~"foo%20bar%25%20baz"; assert encode(" ") == ~"%20"; assert encode("!") == ~"!"; assert encode("\"") == ~"\""; assert encode("#") == ~"#"; assert encode("$") == ~"$"; assert encode("%") == ~"%25"; assert encode("&") == ~"&"; assert encode("'") == ~"%27"; assert encode("(") == ~"("; assert encode(")") == ~")"; assert encode("*") == ~"*"; assert encode("+") == ~"+"; assert encode(",") == ~","; assert encode("/") == ~"/"; assert encode(":") == ~":"; assert encode(";") == ~";"; assert encode("=") == ~"="; assert encode("?") == ~"?"; assert encode("@") == ~"@"; assert encode("[") == ~"["; assert encode("]") == ~"]"; } #[test] fn test_encode_component() { assert encode_component(~"") == ~""; assert encode_component(~"http://example.com") == ~"http%3A%2F%2Fexample.com"; assert encode_component(~"foo bar% baz") == ~"foo%20bar%25%20baz"; assert encode_component(~" ") == ~"%20"; assert encode_component(~"!") == ~"%21"; assert encode_component(~"#") == ~"%23"; assert encode_component(~"$") == ~"%24"; assert encode_component(~"%") == ~"%25"; assert encode_component(~"&") == ~"%26"; assert encode_component(~"'") == ~"%27"; assert encode_component(~"(") == ~"%28"; assert encode_component(~")") == ~"%29"; assert encode_component(~"*") == ~"%2A"; assert encode_component(~"+") == ~"%2B"; assert encode_component(~",") == ~"%2C"; assert encode_component(~"/") == ~"%2F"; assert encode_component(~":") == ~"%3A"; assert encode_component(~";") == ~"%3B"; assert encode_component(~"=") == ~"%3D"; assert encode_component(~"?") == ~"%3F"; assert encode_component(~"@") == ~"%40"; assert encode_component(~"[") == ~"%5B"; assert encode_component(~"]") == ~"%5D"; } #[test] fn test_decode() { assert decode(~"") == ~""; assert decode(~"abc/def 123") == ~"abc/def 123"; assert decode(~"abc%2Fdef%20123") == ~"abc%2Fdef 123"; assert decode(~"%20") == ~" "; assert decode(~"%21") == ~"%21"; assert decode(~"%22") == ~"%22"; assert decode(~"%23") == ~"%23"; assert decode(~"%24") == ~"%24"; assert decode(~"%25") == ~"%"; assert decode(~"%26") == ~"%26"; assert decode(~"%27") == ~"'"; assert decode(~"%28") == ~"%28"; assert decode(~"%29") == ~"%29"; assert decode(~"%2A") == ~"%2A"; assert decode(~"%2B") == ~"%2B"; assert decode(~"%2C") == ~"%2C"; assert decode(~"%2F") == ~"%2F"; assert decode(~"%3A") == ~"%3A"; assert decode(~"%3B") == ~"%3B"; assert decode(~"%3D") == ~"%3D"; assert decode(~"%3F") == ~"%3F"; assert decode(~"%40") == ~"%40"; assert decode(~"%5B") == ~"%5B"; assert decode(~"%5D") == ~"%5D"; } #[test] fn test_decode_component() { assert decode_component(~"") == ~""; assert decode_component(~"abc/def 123") == ~"abc/def 123"; assert decode_component(~"abc%2Fdef%20123") == ~"abc/def 123"; assert decode_component(~"%20") == ~" "; assert decode_component(~"%21") == ~"!"; assert decode_component(~"%22") == ~"\""; assert decode_component(~"%23") == ~"#"; assert decode_component(~"%24") == ~"$"; assert decode_component(~"%25") == ~"%"; assert decode_component(~"%26") == ~"&"; assert decode_component(~"%27") == ~"'"; assert decode_component(~"%28") == ~"("; assert decode_component(~"%29") == ~")"; assert decode_component(~"%2A") == ~"*"; assert decode_component(~"%2B") == ~"+"; assert decode_component(~"%2C") == ~","; assert decode_component(~"%2F") == ~"/"; assert decode_component(~"%3A") == ~":"; assert decode_component(~"%3B") == ~";"; assert decode_component(~"%3D") == ~"="; assert decode_component(~"%3F") == ~"?"; assert decode_component(~"%40") == ~"@"; assert decode_component(~"%5B") == ~"["; assert decode_component(~"%5D") == ~"]"; } #[test] fn test_encode_form_urlencoded() { let m = str_hash(); assert encode_form_urlencoded(m) == ~""; m.insert(~"", @DVec()); m.insert(~"foo", @DVec()); assert encode_form_urlencoded(m) == ~""; let m = str_hash(); m.insert(~"foo", @dvec::from_vec(~[@~"bar", @~"123"])); assert encode_form_urlencoded(m) == ~"foo=bar&foo=123"; let m = str_hash(); m.insert(~"foo bar", @dvec::from_vec(~[@~"abc", @~"12 = 34"])); assert encode_form_urlencoded(m) == ~"foo+bar=abc&foo+bar=12+%3D+34"; } #[test] fn test_decode_form_urlencoded() { use map::hash_from_strs; assert decode_form_urlencoded(~[]).size() == 0; let s = str::to_bytes(~"a=1&foo+bar=abc&foo+bar=12+%3D+34"); assert decode_form_urlencoded(s).size() == 2; } }