pub struct RelayUrl(/* private fields */);
key
only.Expand description
A URL identifying a relay server.
This is but a wrapper around Url
, with a few custom tweaks:
-
A relay URL is never a relative URL, so an implicit
.
is added at the end of the domain name if missing. -
fmt::Debug
is implemented so it prints the URL rather than the URL struct fields. Useful when logging e.g.Option<RelayUrl>
.
To create a RelayUrl
use the From<Url>
implementation.
Methods from Deref<Target = Url>§
Sourcepub fn join(&self, input: &str) -> Result<Url, ParseError>
pub fn join(&self, input: &str) -> Result<Url, ParseError>
Parse a string as an URL, with this URL as the base URL.
The inverse of this is make_relative
.
§Notes
- A trailing slash is significant. Without it, the last path component is considered to be a “file” name to be removed to get at the “directory” that is used as the base.
- A scheme relative special URL as input replaces everything in the base URL after the scheme.
- An absolute URL (with a scheme) as input replaces the whole base URL (even the scheme).
§Examples
use url::Url;
// Base without a trailing slash
let base = Url::parse("https://example.net/a/b.html")?;
let url = base.join("c.png")?;
assert_eq!(url.as_str(), "https://example.net/a/c.png"); // Not /a/b.html/c.png
// Base with a trailing slash
let base = Url::parse("https://example.net/a/b/")?;
let url = base.join("c.png")?;
assert_eq!(url.as_str(), "https://example.net/a/b/c.png");
// Input as scheme relative special URL
let base = Url::parse("https://alice.com/a")?;
let url = base.join("//eve.com/b")?;
assert_eq!(url.as_str(), "https://eve.com/b");
// Input as absolute URL
let base = Url::parse("https://alice.com/a")?;
let url = base.join("http://eve.com/b")?;
assert_eq!(url.as_str(), "http://eve.com/b"); // http instead of https
§Errors
If the function can not parse an URL from the given string
with this URL as the base URL, a ParseError
variant will be returned.
Sourcepub fn make_relative(&self, url: &Url) -> Option<String>
pub fn make_relative(&self, url: &Url) -> Option<String>
Creates a relative URL if possible, with this URL as the base URL.
This is the inverse of join
.
§Examples
use url::Url;
let base = Url::parse("https://example.net/a/b.html")?;
let url = Url::parse("https://example.net/a/c.png")?;
let relative = base.make_relative(&url);
assert_eq!(relative.as_ref().map(|s| s.as_str()), Some("c.png"));
let base = Url::parse("https://example.net/a/b/")?;
let url = Url::parse("https://example.net/a/b/c.png")?;
let relative = base.make_relative(&url);
assert_eq!(relative.as_ref().map(|s| s.as_str()), Some("c.png"));
let base = Url::parse("https://example.net/a/b/")?;
let url = Url::parse("https://example.net/a/d/c.png")?;
let relative = base.make_relative(&url);
assert_eq!(relative.as_ref().map(|s| s.as_str()), Some("../d/c.png"));
let base = Url::parse("https://example.net/a/b.html?c=d")?;
let url = Url::parse("https://example.net/a/b.html?e=f")?;
let relative = base.make_relative(&url);
assert_eq!(relative.as_ref().map(|s| s.as_str()), Some("?e=f"));
§Errors
If this URL can’t be a base for the given URL, None
is returned.
This is for example the case if the scheme, host or port are not the same.
Sourcepub fn as_str(&self) -> &str
pub fn as_str(&self) -> &str
Return the serialization of this URL.
This is fast since that serialization is already stored in the Url
struct.
§Examples
use url::Url;
let url_str = "https://example.net/";
let url = Url::parse(url_str)?;
assert_eq!(url.as_str(), url_str);
Sourcepub fn origin(&self) -> Origin
pub fn origin(&self) -> Origin
Return the origin of this URL (https://url.spec.whatwg.org/#origin)
Note: this returns an opaque origin for file:
URLs, which causes
url.origin() != url.origin()
.
§Examples
URL with ftp
scheme:
use url::{Host, Origin, Url};
let url = Url::parse("ftp://example.com/foo")?;
assert_eq!(url.origin(),
Origin::Tuple("ftp".into(),
Host::Domain("example.com".into()),
21));
URL with blob
scheme:
use url::{Host, Origin, Url};
let url = Url::parse("blob:https://example.com/foo")?;
assert_eq!(url.origin(),
Origin::Tuple("https".into(),
Host::Domain("example.com".into()),
443));
URL with file
scheme:
use url::{Host, Origin, Url};
let url = Url::parse("file:///tmp/foo")?;
assert!(!url.origin().is_tuple());
let other_url = Url::parse("file:///tmp/foo")?;
assert!(url.origin() != other_url.origin());
URL with other scheme:
use url::{Host, Origin, Url};
let url = Url::parse("foo:bar")?;
assert!(!url.origin().is_tuple());
Sourcepub fn scheme(&self) -> &str
pub fn scheme(&self) -> &str
Return the scheme of this URL, lower-cased, as an ASCII string without the ‘:’ delimiter.
§Examples
use url::Url;
let url = Url::parse("file:///tmp/foo")?;
assert_eq!(url.scheme(), "file");
Sourcepub fn is_special(&self) -> bool
pub fn is_special(&self) -> bool
Return whether the URL is special (has a special scheme)
§Examples
use url::Url;
assert!(Url::parse("http:///tmp/foo")?.is_special());
assert!(Url::parse("file:///tmp/foo")?.is_special());
assert!(!Url::parse("moz:///tmp/foo")?.is_special());
Return whether the URL has an ‘authority’, which can contain a username, password, host, and port number.
URLs that do not are either path-only like unix:/run/foo.socket
or cannot-be-a-base like data:text/plain,Stuff
.
See also the authority
method.
§Examples
use url::Url;
let url = Url::parse("ftp://rms@example.com")?;
assert!(url.has_authority());
let url = Url::parse("unix:/run/foo.socket")?;
assert!(!url.has_authority());
let url = Url::parse("data:text/plain,Stuff")?;
assert!(!url.has_authority());
Return the authority of this URL as an ASCII string.
Non-ASCII domains are punycode-encoded per IDNA if this is the host
of a special URL, or percent encoded for non-special URLs.
IPv6 addresses are given between [
and ]
brackets.
Ports are omitted if they match the well known port of a special URL.
Username and password are percent-encoded.
See also the has_authority
method.
§Examples
use url::Url;
let url = Url::parse("unix:/run/foo.socket")?;
assert_eq!(url.authority(), "");
let url = Url::parse("file:///tmp/foo")?;
assert_eq!(url.authority(), "");
let url = Url::parse("https://user:password@example.com/tmp/foo")?;
assert_eq!(url.authority(), "user:password@example.com");
let url = Url::parse("irc://àlex.рф.example.com:6667/foo")?;
assert_eq!(url.authority(), "%C3%A0lex.%D1%80%D1%84.example.com:6667");
let url = Url::parse("http://àlex.рф.example.com:80/foo")?;
assert_eq!(url.authority(), "xn--lex-8ka.xn--p1ai.example.com");
Sourcepub fn cannot_be_a_base(&self) -> bool
pub fn cannot_be_a_base(&self) -> bool
Return whether this URL is a cannot-be-a-base URL, meaning that parsing a relative URL string with this URL as the base will return an error.
This is the case if the scheme and :
delimiter are not followed by a /
slash,
as is typically the case of data:
and mailto:
URLs.
§Examples
use url::Url;
let url = Url::parse("ftp://rms@example.com")?;
assert!(!url.cannot_be_a_base());
let url = Url::parse("unix:/run/foo.socket")?;
assert!(!url.cannot_be_a_base());
let url = Url::parse("data:text/plain,Stuff")?;
assert!(url.cannot_be_a_base());
Sourcepub fn username(&self) -> &str
pub fn username(&self) -> &str
Return the username for this URL (typically the empty string) as a percent-encoded ASCII string.
§Examples
use url::Url;
let url = Url::parse("ftp://rms@example.com")?;
assert_eq!(url.username(), "rms");
let url = Url::parse("ftp://:secret123@example.com")?;
assert_eq!(url.username(), "");
let url = Url::parse("https://example.com")?;
assert_eq!(url.username(), "");
Sourcepub fn password(&self) -> Option<&str>
pub fn password(&self) -> Option<&str>
Return the password for this URL, if any, as a percent-encoded ASCII string.
§Examples
use url::Url;
let url = Url::parse("ftp://rms:secret123@example.com")?;
assert_eq!(url.password(), Some("secret123"));
let url = Url::parse("ftp://:secret123@example.com")?;
assert_eq!(url.password(), Some("secret123"));
let url = Url::parse("ftp://rms@example.com")?;
assert_eq!(url.password(), None);
let url = Url::parse("https://example.com")?;
assert_eq!(url.password(), None);
Sourcepub fn has_host(&self) -> bool
pub fn has_host(&self) -> bool
Equivalent to url.host().is_some()
.
§Examples
use url::Url;
let url = Url::parse("ftp://rms@example.com")?;
assert!(url.has_host());
let url = Url::parse("unix:/run/foo.socket")?;
assert!(!url.has_host());
let url = Url::parse("data:text/plain,Stuff")?;
assert!(!url.has_host());
Sourcepub fn host_str(&self) -> Option<&str>
pub fn host_str(&self) -> Option<&str>
Return the string representation of the host (domain or IP address) for this URL, if any.
Non-ASCII domains are punycode-encoded per IDNA if this is the host
of a special URL, or percent encoded for non-special URLs.
IPv6 addresses are given between [
and ]
brackets.
Cannot-be-a-base URLs (typical of data:
and mailto:
) and some file:
URLs
don’t have a host.
See also the host
method.
§Examples
use url::Url;
let url = Url::parse("https://127.0.0.1/index.html")?;
assert_eq!(url.host_str(), Some("127.0.0.1"));
let url = Url::parse("ftp://rms@example.com")?;
assert_eq!(url.host_str(), Some("example.com"));
let url = Url::parse("unix:/run/foo.socket")?;
assert_eq!(url.host_str(), None);
let url = Url::parse("data:text/plain,Stuff")?;
assert_eq!(url.host_str(), None);
Sourcepub fn host(&self) -> Option<Host<&str>>
pub fn host(&self) -> Option<Host<&str>>
Return the parsed representation of the host for this URL. Non-ASCII domain labels are punycode-encoded per IDNA if this is the host of a special URL, or percent encoded for non-special URLs.
Cannot-be-a-base URLs (typical of data:
and mailto:
) and some file:
URLs
don’t have a host.
See also the host_str
method.
§Examples
use url::Url;
let url = Url::parse("https://127.0.0.1/index.html")?;
assert!(url.host().is_some());
let url = Url::parse("ftp://rms@example.com")?;
assert!(url.host().is_some());
let url = Url::parse("unix:/run/foo.socket")?;
assert!(url.host().is_none());
let url = Url::parse("data:text/plain,Stuff")?;
assert!(url.host().is_none());
Sourcepub fn domain(&self) -> Option<&str>
pub fn domain(&self) -> Option<&str>
If this URL has a host and it is a domain name (not an IP address), return it. Non-ASCII domains are punycode-encoded per IDNA if this is the host of a special URL, or percent encoded for non-special URLs.
§Examples
use url::Url;
let url = Url::parse("https://127.0.0.1/")?;
assert_eq!(url.domain(), None);
let url = Url::parse("mailto:rms@example.net")?;
assert_eq!(url.domain(), None);
let url = Url::parse("https://example.com/")?;
assert_eq!(url.domain(), Some("example.com"));
Sourcepub fn port(&self) -> Option<u16>
pub fn port(&self) -> Option<u16>
Return the port number for this URL, if any.
Note that default port numbers are never reflected by the serialization,
use the port_or_known_default()
method if you want a default port number returned.
§Examples
use url::Url;
let url = Url::parse("https://example.com")?;
assert_eq!(url.port(), None);
let url = Url::parse("https://example.com:443/")?;
assert_eq!(url.port(), None);
let url = Url::parse("ssh://example.com:22")?;
assert_eq!(url.port(), Some(22));
Sourcepub fn port_or_known_default(&self) -> Option<u16>
pub fn port_or_known_default(&self) -> Option<u16>
Return the port number for this URL, or the default port number if it is known.
This method only knows the default port number
of the http
, https
, ws
, wss
and ftp
schemes.
For URLs in these schemes, this method always returns Some(_)
.
For other schemes, it is the same as Url::port()
.
§Examples
use url::Url;
let url = Url::parse("foo://example.com")?;
assert_eq!(url.port_or_known_default(), None);
let url = Url::parse("foo://example.com:1456")?;
assert_eq!(url.port_or_known_default(), Some(1456));
let url = Url::parse("https://example.com")?;
assert_eq!(url.port_or_known_default(), Some(443));
Sourcepub fn socket_addrs(
&self,
default_port_number: impl Fn() -> Option<u16>,
) -> Result<Vec<SocketAddr>, Error>
pub fn socket_addrs( &self, default_port_number: impl Fn() -> Option<u16>, ) -> Result<Vec<SocketAddr>, Error>
Resolve a URL’s host and port number to SocketAddr
.
If the URL has the default port number of a scheme that is unknown to this library,
default_port_number
provides an opportunity to provide the actual port number.
In non-example code this should be implemented either simply as || None
,
or by matching on the URL’s .scheme()
.
If the host is a domain, it is resolved using the standard library’s DNS support.
§Examples
let url = url::Url::parse("https://example.net/").unwrap();
let addrs = url.socket_addrs(|| None).unwrap();
std::net::TcpStream::connect(&*addrs)
/// With application-specific known default port numbers
fn socket_addrs(url: url::Url) -> std::io::Result<Vec<std::net::SocketAddr>> {
url.socket_addrs(|| match url.scheme() {
"socks5" | "socks5h" => Some(1080),
_ => None,
})
}
Sourcepub fn path(&self) -> &str
pub fn path(&self) -> &str
Return the path for this URL, as a percent-encoded ASCII string. For cannot-be-a-base URLs, this is an arbitrary string that doesn’t start with ‘/’. For other URLs, this starts with a ‘/’ slash and continues with slash-separated path segments.
§Examples
use url::{Url, ParseError};
let url = Url::parse("https://example.com/api/versions?page=2")?;
assert_eq!(url.path(), "/api/versions");
let url = Url::parse("https://example.com")?;
assert_eq!(url.path(), "/");
let url = Url::parse("https://example.com/countries/việt nam")?;
assert_eq!(url.path(), "/countries/vi%E1%BB%87t%20nam");
Sourcepub fn path_segments(&self) -> Option<Split<'_, char>>
pub fn path_segments(&self) -> Option<Split<'_, char>>
Unless this URL is cannot-be-a-base, return an iterator of ‘/’ slash-separated path segments, each as a percent-encoded ASCII string.
Return None
for cannot-be-a-base URLs.
When Some
is returned, the iterator always contains at least one string
(which may be empty).
§Examples
use url::Url;
let url = Url::parse("https://example.com/foo/bar")?;
let mut path_segments = url.path_segments().ok_or_else(|| "cannot be base")?;
assert_eq!(path_segments.next(), Some("foo"));
assert_eq!(path_segments.next(), Some("bar"));
assert_eq!(path_segments.next(), None);
let url = Url::parse("https://example.com")?;
let mut path_segments = url.path_segments().ok_or_else(|| "cannot be base")?;
assert_eq!(path_segments.next(), Some(""));
assert_eq!(path_segments.next(), None);
let url = Url::parse("data:text/plain,HelloWorld")?;
assert!(url.path_segments().is_none());
let url = Url::parse("https://example.com/countries/việt nam")?;
let mut path_segments = url.path_segments().ok_or_else(|| "cannot be base")?;
assert_eq!(path_segments.next(), Some("countries"));
assert_eq!(path_segments.next(), Some("vi%E1%BB%87t%20nam"));
Sourcepub fn query(&self) -> Option<&str>
pub fn query(&self) -> Option<&str>
Return this URL’s query string, if any, as a percent-encoded ASCII string.
§Examples
use url::Url;
fn run() -> Result<(), ParseError> {
let url = Url::parse("https://example.com/products?page=2")?;
let query = url.query();
assert_eq!(query, Some("page=2"));
let url = Url::parse("https://example.com/products")?;
let query = url.query();
assert!(query.is_none());
let url = Url::parse("https://example.com/?country=español")?;
let query = url.query();
assert_eq!(query, Some("country=espa%C3%B1ol"));
Sourcepub fn query_pairs(&self) -> Parse<'_>
pub fn query_pairs(&self) -> Parse<'_>
Parse the URL’s query string, if any, as application/x-www-form-urlencoded
and return an iterator of (key, value) pairs.
§Examples
use std::borrow::Cow;
use url::Url;
let url = Url::parse("https://example.com/products?page=2&sort=desc")?;
let mut pairs = url.query_pairs();
assert_eq!(pairs.count(), 2);
assert_eq!(pairs.next(), Some((Cow::Borrowed("page"), Cow::Borrowed("2"))));
assert_eq!(pairs.next(), Some((Cow::Borrowed("sort"), Cow::Borrowed("desc"))));
Sourcepub fn fragment(&self) -> Option<&str>
pub fn fragment(&self) -> Option<&str>
Return this URL’s fragment identifier, if any.
A fragment is the part of the URL after the #
symbol.
The fragment is optional and, if present, contains a fragment identifier
that identifies a secondary resource, such as a section heading
of a document.
In HTML, the fragment identifier is usually the id attribute of a an element that is scrolled to on load. Browsers typically will not send the fragment portion of a URL to the server.
Note: the parser did not percent-encode this component, but the input may have been percent-encoded already.
§Examples
use url::Url;
let url = Url::parse("https://example.com/data.csv#row=4")?;
assert_eq!(url.fragment(), Some("row=4"));
let url = Url::parse("https://example.com/data.csv#cell=4,1-6,2")?;
assert_eq!(url.fragment(), Some("cell=4,1-6,2"));
Sourcepub fn serialize_internal<S>(
&self,
serializer: S,
) -> Result<<S as Serializer>::Ok, <S as Serializer>::Error>where
S: Serializer,
pub fn serialize_internal<S>(
&self,
serializer: S,
) -> Result<<S as Serializer>::Ok, <S as Serializer>::Error>where
S: Serializer,
Serialize with Serde using the internal representation of the Url
struct.
The corresponding deserialize_internal
method sacrifices some invariant-checking
for speed, compared to the Deserialize
trait impl.
This method is only available if the serde
Cargo feature is enabled.
Sourcepub fn to_file_path(&self) -> Result<PathBuf, ()>
pub fn to_file_path(&self) -> Result<PathBuf, ()>
Assuming the URL is in the file
scheme or similar,
convert its path to an absolute std::path::Path
.
Note: This does not actually check the URL’s scheme
,
and may give nonsensical results for other schemes.
It is the user’s responsibility to check the URL’s scheme before calling this.
let path = url.to_file_path();
Returns Err
if the host is neither empty nor "localhost"
(except on Windows, where
file:
URLs may have a non-local host),
or if Path::new_opt()
returns None
.
(That is, if the percent-decoded path contains a NUL byte or,
for a Windows path, is not UTF-8.)
This method is only available if the std
Cargo feature is enabled.
Trait Implementations§
Source§impl Deref for RelayUrl
impl Deref for RelayUrl
Source§impl<'de> Deserialize<'de> for RelayUrl
impl<'de> Deserialize<'de> for RelayUrl
Source§fn deserialize<__D>(__deserializer: __D) -> Result<Self, __D::Error>where
__D: Deserializer<'de>,
fn deserialize<__D>(__deserializer: __D) -> Result<Self, __D::Error>where
__D: Deserializer<'de>,
Source§impl FromStr for RelayUrl
impl FromStr for RelayUrl
Support for parsing strings directly.
If you need more control over the error first create a Url
and use RelayUrl::from
instead.